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R&D Projects 2011
26/05/11
Parc Technologique Les Algorithmes
Bâtiment Euripide - RD 128 - 91190 SAINT-AUBIN
Phone: +33 (0)1 69 81 65 65 - Fax:+33 (0)1 69 41 69 19
[email protected]
www.systematic-paris-region.org
R&D Projects
2011
The Cluster and its R&D projects are supported by:
© Systematic - june 2011
couverture2011:Mise en page 1
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258 R&D projects
shaping our innovation ecosystem
” Dear SYSTEMATIC Partners,
I am very happy to introduce this leaflet providing you with the summary of the
258 collaborative R&D projects running to date, thanks to your imagination, dynamism
and renewed commitment. They represent a total R&D budget of €1,2 billion, including
€450M of financial support from the French Government and the Paris-Region local
authorities.
Among these 258 R&D projects, 101 are already finished and most have already found
applications among industrial partners. You will easily find them into this leaflet with the
“finished” marker printed on the summaries.
Those 258 projects labelised by Systematic since its creation in 2005 are the
consecration of an important collaborative work led by the 5 Working Groups:
Automotive & Transports, Systems Design and Development Tools, Security & Defence,
Telecoms and Free & Open Source Software, this latter group joined our cluster in
October 2007. It is a clear proof that the first mission of our cluster which is to boost
economy through open innovation is fully reached.
Taking into account the new coming challenges, Systematic aims to develop an
“ecosystem of innovation” within its territory by developing more regional synergies.
As you may know, Systematic is already engaged on this path with the development of
local SMEs including access to funding as well as international and strategic actions
thanks to the programme named “AMBITION PME”.
Dominique
VERNAY
President
Systematic
“ For the coming years, Systematic
is not only committed to developing
new R&D projects but also increase
productivity and create new businesses
within our cluster and, in parallel,
with other countries“
In 2010, 500 SMEs have benefited from this program of actions and more than
950 actions were conducted to support SMEs' business operating in the optics,
electronics and software sectors. The aim is to create optimal conditions for the
development of innovative international SMEs.
Systematic also ensures the improvement of attractivity and visibility of Paris region by
structuring relationships and partnerships with national clusters and other ICT
European clusters.
For the coming years, Systematic is not only committed to developing new R&D projects
but also increase productivity and create new businesses within our cluster and, in
parallel, with other countries.
As such, I am confident that you, Systematic partners, the Open Innovation actors, will
take an active part in these new challenges!”
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Contents
Systematic World Class Competitiveness Cluster
AUTOMOTIVE & TRANSPORTS WG
0-DEFECT
ARAMIS
AROS
CESAR
Co-DRIVE
CORVETTE
DIAFORE
DIAPA
EDONA
E-MOTIVE
GEDRIVER
HECOSIM
ICADAC
IHS10
IMOFIS
IMPRO
ISI-PADAS
ITRANSPORT 2.0
LOVE
MASCOTTE
MEMVATEX
MODELISAR
O4A PHASE II
ODIAAC
PETRA
RT-DESCRIBE
SASHA
SCARLET
SEEDS
SIRSEC
SPEEDCAM
SYSPEO
TICTACT
Diagnosis
Electronics Architecture
Algorithms & data fusion for localisation and vision
Software tools and Methods
Human-machine interfaces
Diagnosis
Diagnosis
Human-Machine interfaces
ICT & Transport
Dependability of monitoring systems
Diagnosis
Electronics Architecture / Dependability of monitoring systems
Human-machine interfaces
FREE & OPEN SOURCE SOFTWARE WG
AEOLUS
C2M
COCLICO
CODEX
COMPATIBLE ONE
COUVERTURE
DATA PUBLICA
DESKOLO
DORM
EASYSOA
HELIOS
HILITE
Distributed
Enterprise Applications
Development Tools
Web 2.0 and 3.0
Middleware
Embedded
Web 2.0 and 3.0
Green-IT
Development Tools
Middleware
Development Tools
Software engineering / Development Tools
8
10
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
46
48
49
50
51
52
53
54
55
56
57
58
59
also supported by Systems Design and Development Tools WG
MAGNUM
Development Tools
60
also supported by Systems Design and Development Tools WG
NEOPPOD
PWD
RTEL4I
SCRIBO
SQUALE
SQUASH
WIKI 3.0
Distributed
Web 2.0 and 3.0
Embedded
Development Tools
Development Tools
Web 2.0 and 3.0
SYSTEMS DESIGN AND DEVELOPMENT TOOLS WG
A.D.N
ACCESSIM
ACTIVOPT
AGREGATION
AMELHYFLAM
ASOPT
BACARRAT
4
Modelling systems simulation
Software engineering
61
62
63
64
65
66
67
68
70
71
72
73
74
75
76
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SYSTEMS DESIGN AND
DEVELOPMENT TOOLS WG
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
SECURITY &
DEFENCE WG
Data analytics
Data analytics
Data analytics
TELECOMS WG
BINCOA
CAMPAS
CANOE
CDTO
CERCLES 2
CHAPI
COLLAVIZ
CONCEPT
COOLIT
CORTEX 3D
CPP
CSDL
EHPOC
EMYR
EVOD
EXPAMTION
FAME2
FLACOMARE
FLEX-EWARE
FOST
FP3C
GENCOD
HIPIP
INDIAC
IOLS
IOMCA
IRIMI
JASMIN
JESTIMULE
LABS
LAMBDA
MIEL 3D-MESHER
MOHYCAN
MOSIC
MOVIDA
MPSOCEXPLORER
N-POEM
O2M
O2M P2
OASIS
OCELLE
OLDP
OPARUS
OPEN GPU
OPEN HPC
OPSIM
OPTIDIS
OPUS
PANDA
PARMAT
PARSEC
PEGASE
PHERMA
POPS
PPR
PROTEUS
PUMA
QUICK GPS
RADIOLA
REPDYN
ROMMA
RT-SIMEX
SALTY
SCOS
SHAN
SHPCO2
SIMILAN
SISTAE
SOCLIB
FREE & OPEN SOURCE
SOFTWARE WG
AUTOMOTIVE &
TRANSPORTS WG
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Contents
STIMULEE
STURM4
SYGEO
SYS-MCO
TERAOPS
U3CAT
USINE LOGICIELLE
USINE NUMERIQUE
USINE NUMERIQUE 2
VAUCANSON 2
VERDE
VUE
WAAVES GP
WARM
WINPOWER
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
Trusted digital systems
Security systems for goods and people
Physical security technologies
Digital trust technologies
Security Systems for goods and people
Trusted Digital systems
Security innovation cluster
162
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
SECURITY & DEFENCE WG
ADMIN PROXY
ADS+
ASPIC
BEST
BINGO
BMOS
COP DRONE
DESCARTES
DIAMONDS
ECLIPSES
E-FRAUD
ESPRI
ESTER
FC²
KIVAOU
LEA
LOCINDOOR
MANIF
MA-NRBC
METHODEO
MOBILAO
MOBISIC
NIMBLENET
NOTSEG
ODYSSEE
OPTIMUM
OSOSOSOS
PAMPA
PERSOPOLIS
PFC
PIMI
QUASPER R&D
RECONSURVE
ROLE-ID
SAFEAROUND
SAIMSI
SAMOSA
SAPHIR 2
SCALP
SECURED ALGORITHM
SEFPGA
SEQURE
SIC
SIGNATURE
SMART VISION
SMARTFENCE
SMARTMESH
SPIDERS
SRPM
TARANIS
TISPHANIE
TOCHA
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High speed networks
Wireless Connectivity
High speed networks
High speed network
Personalised Services & Communications
High speed networks
High speed networks
High speed networks
High speed networks / Wireless Connectivity
Personalised Services & Communications / Wireless Connectivity
High speed networks
High speed network
High speed networks
Wireless connectivity
High speed networks
High speed networks / Wireless Connectivity
High speed networks
High speed networks
High speed networks
High speed networks
High speed network
High speed networks
220
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224
225
226
227
228
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230
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233
234
235
236
237
238
239
240
241
242
243
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245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
TELECOMS WG
100GRIA
3MING
6_POD
6WIND
AG@PE
AMORCE
AQUEDUC
ATTITUDE 4G+
BLINKSTER
CARRIOCAS
CBDP
CHRONOS
COHABIT
COHDEQ40
CONNECT
CONRAHD-MINHOS
CULTURE CLIC
ECOFRAME
E-COMP@GNON
ECONHOME V2
ECOSCELLS
ELHAN
EPOD
EXOTICUS
F-LAB
GENGHIS KHAN
GRECO
IPNQSIS
KIVI
MCUBE
MEDIATIC
MEVICO
MICROS
M-SCARF
NEPTUNE
OCELOT
POSEIDON
PUMA
QOS-WIFI
QUATRO-2
RAF
RECOSS
SEAMLESS
SEANET
SENSCITY
SESAME
SOLIMOBILE
STRADE
SURFONHERTZ
TCHATER
TRILOB
TRIMARAN
ULTRAWIDE
URC
VERSO-MODULE
WINGS
Index of Management Board members
Working Group Steering Commitees members
The cluster ans its R&D projects are supported by
Projects alphabetical list
Member’s alphabetical list
Last Minute: FUI and Regional collaborative R&D call for projects
278
279
281
283
286
288
SYSTEMS DESIGN AND
DEVELOPMENT TOOLS WG
216
217
218
219
SECURITY &
DEFENCE WG
TELECOMS WG
TSC
VIDEO-ID
VIGIEs
XVISION
FREE & OPEN SOURCE
SOFTWARE WG
AUTOMOTIVE &
TRANSPORTS WG
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World Class Competitiveness Cluster
BOOST THE ECONOMY THROUGH OPEN INNOVATION
Today’s society depends on complex systems
Complex systems combine the following functions: sensors and information processing,
Communication and Decision-making processes. They play a key role in the management, supervision, regulation and control of today’s society especially in the fields of trade,
finance, health, security, energy, transport, environment and defence.
Systematic: A strategy combining key technologies and growth markets
This strategic positioning puts the Cluster in command of key technologies in optics,
electronics and software that will become part of tomorrow’s systems. Systematic
focuses on five Working Groups sharing strategic visions and monitoring collaborative
R&D projects: Automotive & Transports, Security & Defence, Systems Design &
Development Tools, Telecoms and Free & Open Source Software.
Since 2009, Systematic deploys its technologies towards new markets, including "ICT &
Sustainable Cities" and “ICT & Health” which are at the heart of the 21st century challenges
and whose development increasingly relies on the know-how of Systematic members.
THE CLUSTER’S MAIN
OBJECTIVES
Systematic seeks to boost the
economy and employment through
innovation, training and partnerships. The researchers, industries,
training organisations, French national and local governments involved with the Cluster have three
priorities:
◗ consolidate the leadership of
major integrators in order to
secure the sustainability of
their R&D activities in the Paris
Region,
◗ stimulate the creation and development of new high tech
businesses with global ambitions,
◗ strengthen the Paris Region’s
attractiveness by developing its
image on an international scale
in order to attract new global
companies’ R&D departments.
SYSTEMATIC: An innovative growing cluster
Since 2005, the Systematic Cluster has developed 258 R&D projects representing a total R&D
investment of €1.2 billion including €450M funded by the French Government, Regional economic
development agencies and from the Paris-Region local authorities. The commitment of all the
clusters’ actors in the “Open Innovation” way creates synergies between SME’s, industrial
firms and research laboratories and allows the emergence of innovative projects.
SUPPORT GROWTH INNOVATIVE SMEs,
FOR THE BENEFIT OF ALL PARTNERS
SMEs, innovation powerful drivers, play a leading role in our ecosystem
For the coming years, Systematic is not only committed to developing new R&D projects but
also to increasing productivity and to creating new businesses within our cluster specially
for SMEs. Systematic stands on an ecosystem made of 800 SMEs which represent more
than 35 000 jobs in the fields covered by the Cluster. The Cluster’s objectives towards SMEs
consist in contributing to the emergence of global leaders and consolidating existing SMEs.
“Ambition pme”: an action plan for smes operating in the optics, electronics and software sectors
To answer this challenge, Systematic, in association with the “Réseau des Chambres de
Commerce et d’Industrie” (CRCI) and Opticsvalley, has created the “AMBITION PME” programme. This programme is supported by the European Union (ERDF, ESF), the French
Government (Préfecture de la Région Ile-de-France, DIRECCTE Ile-de-France) and the
Paris Region.
8
The Cluster’s main challenge is
to develop new approaches to
design futur generations of
complex systems and objects.
“ Creates synergies between SME’s,
industrial firms, research laboratories
and industrial groups and allows the
emergence of innovative projects.“
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The aim of “AMBITION PME” is to create optimal conditions for the
development of innovative international SMEs focused on 5 axes:
◗ Business: connect SMEs to their future key accounts
• Organization of B2B meeting
• Publication of a directory of 800 SME’s
• Study report on key account’s needs and expectations
◗ Raise funds: help SME’s to raise funds
• Set up meeting between SME and investors
• Coaching and certification “Label Entreprise Innovante des Pôles“ recognized by
investors
• Workshops en specific themes
◗ Export: assist SMEs development in export markets
• Workshop to get to know their export markets
• Organization of “discovery seminars” including B2B meeting in Boston and Beijing
◗ Human Ressources: help SME’s to recruit, train, manage and adapt the skills
• Manage the skills already available in company
• Study report on training needs for complex systems engineers
• Facilitate contact between SME’s and potential qualified employees
◗ Innovation strategy: enhance SME’s innovation strategy and improve their competitiveness
• Anticipate technological and economic evolution through business intelligence
• Coaching to define SME’s innovation strategy
• Identify new sustainable development markets
AN INTERNATIONAL OUTLOOK AND ATTRACTIVENESS
Accredited as a “World class” cluster by the French Government in 2005, Systematic focuses its development on European and
international scene on three priorities:
◗ attract capital and talents to the Paris Region,
◗ help laboratories and companies export their patents and products,
◗ face the challenge of growing global competition from large systems integrators, low-cost software development and new players
in embedded systems.
The Cluster benefits from recognised experience in cooperation between its members and their European partners: some members
of Systematic are already involved in European networks, such as the European technological platforms (ARTEMIS, eMobility, etc.) and
the EUREKA clusters and are represented in European Commission R&D programs (Framework Programmes FP6 and FP7).
Partnerships established with the German cluster SafeTRANS (in the field of embedded security systems in transport), with the
Dutch cluster Point-One (focusing on embedded systems and micro-nano technologies), with the Bavarian cluster BICC-Net, with
the “Comité National des Conseillers du Commerce Extérieur de
la France” (CNCCEF) allowing SME’s to benefit from their expertise in international trade. Systematic is now developing partnerships with international clusters in similar buoyant markets –
security and Defence for exemple.
Systematic has opened technological hubs for the benefit of its
members in three key places on the globe (Boston, Beijing, Tunis)
with a view to:
◗ promote Systematic (the cluster, the Paris region and its members);
◗ facilitate international partnership projects;
◗ support SME export drive.
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Automotive & Transports
Working Group
Gilles LE CALVEZ,
WG President
[email protected]
VALEO
10
“Our strategy is based on a threefold objective: boosting
techno¬logical innovation in order to increase industrial performance and enhance the attractiveness of Paris region. This strategy
fully leverages the contribution to international Standards.
To date, 33 projects labeled by Systematic were initiated by the
Automotive & Transports Working Group. This Working Group has
demonstrated its ability to develop innovative projects structured
by roadmaps and, most importantly, to capitalize on their results by
integrating them into a platform of economic valorization. Our
Working Group is involved at European level in a coordination of
several clusters of competitiveness in France, Germany, Spain and
Austria to be able to promote new technologies in standards such
as Autosar, Cenelec or ISO 26262".
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EMBEDDED SYSTEMS AND ELECTRONICS,
AT THE HEART OF THE TRANSPORTATION SECTOR
With a GDP share of 15 %, the transport industry (aviation, rail and automotive) structures very strongly
France’s economic and industrial activities.
Paris Region is the first French region in this sector
with 156 000 employees representing 19 % of national
employment.
Regarding R&D, the automotive industry, as an example, employs in the Ile-de-France 17 500 people including 6 600 researchers, representing 75 % of French
researchers in this field, 67 % of the research staff in
this industry and 72 % of expenditure on R&D.
THE AUTOMOTIVE & TRANSPORTS WORKING GROUP WITHIN SYSTEMATIC
This Working Group aims at mastering the complexity
of electronic architectures and embedded-systems to
meet the need for technological development concerning embedded systems in automotive, railway and
truck industries, leveraging the expertise and competences of all these sectors.
◗ R&D Financed Projects: 33
◗ Partners: 79 including:
◗ 26 SMEs
◗ 6 ETIs
◗ 24 Large companies
◗ 23 Research institutes and universities
◗ Total Investment: 188 M2
The Automotive & Transportation Working Group is
structured around five technology areas, called “Development Axes”:
◗ Algorithms & data fusion for localization and vision
◗ Electronics Architecture, Dependability and Software
Methods and Tools
◗ Diagnosis
◗ Human-Machine interfaces
◗ ICT & Transportation
It also cooperates with the Telecom Working Group.
Xavier APOLINARSKI,
Michaël FOURNIER,
WG Vice-President
[email protected]
CEA
Representative of Permanent Secretariat
[email protected]
SYSTEMATIC
Steering Committee Members
ALSTOM TRANSPORT
ALSTOM TRANSPORT
ARMINES PARIS
ARMINES PARIS
CEA SACLAY
CEA SACLAY
CNRS PARIS
CONTINENTAL AUTOMOTIVE France
CONTINENTAL AUTOMOTIVE France
DELPHI
DELPHI
FREESCALE SEMICONDUCTOR
SEE4SYS
INRETS VERSAILLES
INRIA ROCQUENCOURT
INTEMPORA
RENAULT GUYANCOURT
RENAULT GUYANCOURT
RENAULT TRUCKS
RENAULT TRUCKS
ST MICROELECTRONICS
UNIVERSITE DE TECHNOLOGIE DE COMPIEGNE
VALEO BOBIGNY
VISTEON
VISTEON
Didier VAN DEN ABEELE
Pascal POISSON
Claude LAURGEAU
Philippe FUCHS
Riadh CAMMOUN
Jean-Marc ALEXANDRE
Véronique VIGUIE DONZEAU-GOUGE
Serge BOVERIE
Frédéric LE-HUNG
Kamel MAAZIZ
Philippe GASNIER
Denis GRIOT
Gérard MANIEZ
Serge LAVERDURE
Jean-Marc BLOSSEVILLE
Anne-Céline LAMBALLE
Gilles MICHEL
Olivier GUETTA
Christian BALLE
Claude COVO
Bernard FAVRE
Jochen LANGHEIM
Ali CHARARA
Philippe GOUGEON
Jacques JAUBER
Hervé DUFAU
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Automotive & Transports WG
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Diagnosis
0-DEFECT
Outil de Diagnostic Embarqué
de Faisceaux AUTomobiles
Embedded systems are equiped with diagnosis functions, but that of the wired network,
which is a critical system, is not considered. In 2006 the project SEEDS aimed at
studying the feasibility of a wire diagnosis system usable in garage for maintenance or
embedded for the follow-up of the harness. The objectives of 0-DEFECT are to study and
implement methods more adapted to embedded. The current method gives a ten
centimeters precision on the localization of a hard defect, but is not compatible with
embedded constraints (EMC and interaction of the diagnosis signals with those of the
network). Other methods will be implemented, the models will be refined and more
powerful prototypes will be built and tested in the vehicle, aiming at proving viability
and feasibility for an embedded system.
ON GOING
PROJECT
CONTACT
Marc OLIVAS
CEA LIST
+33 (0)1 69 08 48 83
[email protected]
PARTNERS
TECHNOLOGICAL OR SCIENTIFIC INNOVATIONS
The main scientific and technical
objectives in the project are:
Large companies:
DELPHI, FREESCALE, PCA SA,
VOLVO TRUCKS
Research institutes, universities:
CEA LIST, INRIA,
SUPELEC LGEP
◗ online embedded diagnosis of
real topology automobile cable
network (in a concurrent way to
the normal functioning of the
network),
◗ detection and localization of
hard defects with a precision of
a few centimeters, at low cost,
PROJECT DATA
Coordinator:
CEA LIST
◗ solving the localization ambiguity inherent to ramified networks,
◗ study of the detection of the degradation premises of connectors, follow-up of the
evolution of parameters representative of the degradation of a connector and way of
measuring them,
◗ study of the embedded diagnosis architecture,
◗ microelectronic integration study, in an objective of diffusion in the automotive domain
shortly after end of the project.
Call:
ANR
Start date:
August 2009
Duration:
36 months
Global budget (M2):
4.1
STATUS - MAIN PROJECT OUTCOMES
SP1 (specifications) provided some results:
◗ an analysis of intermittent failures showed that 25% were due to cable defects,
◗ specifications for the diagnosis chip were provided,
◗ the integration study of the chip is ongoing and showed the best solution is to use a
diagnosis chip connected to the existing architecture of the calculator.
In the meantime, the partners have begun to write the consortium agreement, on the
basis of those already signed, for example in the SEEDS project.
12
Funding (M2):
1.9
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ARAMIS
COMPLETED
PROJECT
The ARAMIS project is a part of Num@tec Automotive. The project ojectives are the following :
◗ Set-up a "Best practices" development center between SMEs and Scientific laboratories
in order to increase the AUTOSAR Software Components development efficiency. The main
objectives is to promote the use of Model-Based design methodology associated to automatic embedded code generation and to enhance the validation means.
◗ Create a model library optimized for embedded code generation on Cooler Systems.
◗ Initiate a continuously improved design flow between SMEs and laboratory by measuring
CONTACT
Sébastien DUBE
SEE4SYS
+33 (0)2 53 46 20 56
[email protected]
and improving the productivity.
◗ Finalize the project by a long-term contract for a common laboratory based on Scientific
studies used on concrete industrial uses cases.
PARTNERS
PROGRESS BEYOND THE STATE OF THE ART
The ARAMIS technologies have been successfully deployed by GEENSYS on air conditionning system model provided by SHERPA. Simulation and embedded code on target
execution can be compared with the tool chain.
SMEs:
SEE4SYS
(EX GEENSYS), SHERPA
CEA-LIST
The CEA-LIST technologies have been also deployed in order to generate execution
tests and coverage measurement.
PROJECT DATA
This project has been closed in May 2010.
Coordinator:
SEE4SYS(EX GEENSYS)
MAJOR PROJECT OUTCOMES
Call:
FEDER
◗ Products:
This project has been successfully deployed by SEE4SYS & SHERPA on a air conditionning system. This project is used as basis to perform a complete automation of embedded sources codes creation from the model description and increase the
development productivity. This automated process is the main interest of automotive car
manufacturers. This improves :
• Development productivity
• Safety & Quality
• Testability
◗ Job creation:
Maintain 3 jobs on See4sys part.
Start date:
January 2009
Duration:
28 months
Global budget (M2):
0.8
Funding (M2):
0.4
Related Systematic project(s):
EDONA
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Algorithms & data fusion
for localisation and vision
Automotive Robust Operating Services
ON GOING
PROJECT
The automotive industry is deeply evolving notably with the sharp increase of electronics in the added value of a vehicle. This high end part of the value is fairly complex and
challenging for engineers.
AROS is based on the RTMaps concepts, a software designed and developed at Mines
ParisTech, industrialized by Intempora (10 jobs created) and used by all major automotive players as VALEO. AROS develops a new real-time, components oriented, development platform in order to go one step beyond, to distributed and cooperative
systems that are now taking off.
AROS provides to the automotive engineer a set of innovative tools or libraries:
◗ DOHC (Distributed Objects for Higher Level C) eases the development of robust applications in C, while providing a unique real-time memory management system.
◗ Cables (the communication library) introduces a new subscribe/push protocol and eases
the development of client/server applications (including web 2.0 applications) while providing state-of-the-art compression
and encryption of communications.
CONTACT
Arnaud de LA FORTELLE
ARMINES
+33 (0)1 40 51 94 08
arnaud.de_la_fortelle
@mines-paristech.fr
PARTNERS
Large companies:
VALEO
SMEs:
INTEMPORA SA
ARMINES, INRIA
◗ Chassis (the I/O library) provides a
way to develop applications or components independently of the underlying platform: Windows, UNIX or
embedded real-time system.
PROJECT DATA
◗ The new execution engine, based on
Coordinator:
ARMINES
the optimistic execution paradigm - a
concept used in state-of-the-art parallel simulation systems -, is able to
provide dynamic components management, transparent distribution
over cores or systems while ensuring
real-time deterministic execution.
All together, these tools enable the development of more complex automotive
applications, involving complex communication systems among vehicles and/or
infrastructure, distribution and redundancy of computation, redundancy and
multiple sensor fusion (radar, GPS,
cameras, etc.)
Call:
ANR
Start date:
September 2008
Duration:
36 months
Global budget (M2):
2.1
Funding (M2):
1
ModuloWatt booth at the Salon de l'Automobile 2010. The AMARE application
was developed using AROS Cables.
Parts of AROS code are already transferred and even in exploitation:
◗ « Injector », the application design interface is integrated by Intempora to RTMaps 4, the
new generation of the tool.
◗ Cables, the communication library, is being transfered to Intempora for industrialization.
It will be available in Open Source (GPL licence) for non-commercial application and with
a proprietary licence for industrial application.
Cables is used in R&D projects such as French CAROTTE (Robotics) and AMARE (electric
vehicles), and European HAVE-IT (highly automated vehicle) or CityMobil (fully automated
vehicles).
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Cost-Efficient methods and processes
for SAfety Relevant embedded systems
◗ The embedded safety-critical systems design and development industry is facing increasing complexity and variety of systems and devices, coupled with increasing regulatory constraints while costs, performances and time to market are constantly challenged.
◗ CESAR will bring significant and conclusive innovations in the two most improvable systems engineering disciplines:
◗ Requirements engineering
◗ Component based engineering
◗ In addition CESAR intends to provide industrial companies with a breakthrough in system
development by deploying a customisable systems engineering ‘Reference Technology
Platform’ (RTP) making it possible to integrate or interoperate existing or emerging available technologies.
Incremental deliveries of the Reference Technology Platform (RTP) including toolset
and process covering :
◗ 1) guidelines, multi-views and multicriteria modelling and mono-criteria V&V
◗ 2) multi-criteria V&V and certification concerns
STATUS - MAIN PROJECT
OUTCOMES
The Reference Technology Platform will be defined
and validated by three groups of industrial end
users covering the domain of Automotive, Aerospace and Rail/Industrial Automation. The technical management of the project relies on two
transverse Task Forces on Safety and Product Line.
ON GOING
PROJECT
CONTACT
Gerhard GRIESSNIG
AVL
[email protected]
PARTNERS
Large companies:
ABB, ACCIONA, AIRBUS,
ALENIASIA, ASF, ASTRIUM, AVL,
CENTRO RICERCHE FIAT, DANIELI
AUTOMATION, DASSAULT
SYSTEMES, DELPHI, EADS, ELSAG
DATAMAT, ESI-TECNALIA, HELLENIC
AEROSPACE INDUSTRY, HISPANOSUIZA, INFINEON TECHNOLOGIES,
MESSIER-BUGATTI, SAGEM,
SIEMENS, THALES, TURBOMECA,
VOLVO
SMEs:
ABSINT, CRITICAL SOFTWARE,
ESTEREL TECHNOLOGIES, FORMAL
SOFTWARE CONSTRUCTION,
SEE4SYS, OSC, THE VIRTUAL
VEHICLE COMPETENCE CENTER
ARISTOTLE UNIVERSITY OF
THESSALONIKI, CEA, CNRS, DLR,
FRAUNHOFER, INDUSTRIAL
SYSTEMS INSTITUTE, INRIA,
KUNGLIGA TEKNISKA
HÖGSKOLAN, NATIONAL
TECHNICAL UNIVERSITY OF
ATHENS, NORWEGIAN UNIVERSITY
OF SCIENCE AND TECHNOLOGY,
OFFIS, ONERA, OXFORD
UNIVERSITY, SINTEF, THE
UNIVERSITY OF MANCHESTER,
UNIVERSITÀ DI BOLOGNA UNIBO,
UNITS
PROJECT DATA
Coordinator:
AVL
Call:
ARTEMIS
Start date:
March 2009
Duration:
36 months
Global budget (M2):
58
Funding (M2):
27
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Co-Pilot for an intelligent road
and vehicular communication system
The goal of the Co-Drive project is to develop and validate a cooperative driving system
up to a pre-industrialization stage. The Co-Drive cooperative system including the
driver, the vehicle and the road infrastructure will open new usages and new services
for a more intelligent, more secure, more sustainable mobility.
ON GOING
PROJECT
CONTACT
Philippe GOUGEON
VALEO
+33 (0)1 49 42 38 35
[email protected]
Co-Drive is a cooperative and evolutive system based on:
◗ a wireless automotive camera linked to a smart phone,
◗ communication electronic board compliant to wi-fi 802.11p standard, for on-board
and road-side units,
◗ an intelligent traffic management system analyzing the
traffic datas collected from all
the Co-Drive vehicles,
PARTNERS
Large companies:
APRR, CLEMESSY,
MEDIAMOBILE, SOPEMEA,
VALEO
SMEs:
CIVITEC, CITILOG, COMSIS,
NAVECOM, TECRIS
◗ a database of legal speed
limits, updated in real time
thanks to the Co-Drive vehicles
IFSTTAR (EX-INRETS), INRIA,
INSA ROUEN, UNIVERSITE DE
VERSAILLES - ST QUENTIN
EN YVELINES
◗ a network of wi-fi and cellular
telecommunications.
With the Co-Drive cooperative
system:
◗ the road infrastructure management can "sense the traffic" from each individual Co-Drive vehicle , based on
driving speeds, inter-distances, GPS locations,
◗ quick, safe and specific information can be transferred to the driver in each individual vehicle, based on its location in the traffic, such as recommended speed, safety
distances,
◗ the traffic management system can provide emergency alerts to each Co-Driver with
a quicker loop time,
◗ the traffic information service can also supply temporary or variable speed limits
which do not exist in digital maps.
◗ The Co-Drive sytem is intented to be sold as an aftermarket product, at a reasonable
price, but with the highest quality standards.
◗ The customer will be able to install a new wireless camera in his car, purchase smart
phone applications on the internet, and obtain speed limit and inter-distance warnings.
◗ Driving on motorways or with an additional membership, the customer will contribute
to reduce the traffic congestion, and receive accurate recommendations for a safer
driving experience.
PROJECT DATA
Coordinator:
VALEO
Co-label:
MOV’EO, POLE VÉHICULE
DU FUTUR
Call:
FUI10
Start date:
October 2010
Duration:
36 months
Global budget (M2):
7.0
Funding (M2):
3.0
Related Sytematic project(s):
EMOTIVE, SCOREF, SPEEDCAM
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CORVETTE
COllaboRative Virtual Environment
Technical Training and Experiment
The CORVETTE project aims at proposing a set of scientific innovations in the field of industrial training (maintenance, complex collaborative procedures, safety, diagnosis ...)
using Virtual Reality technologies.
The CORVETTE project is also deeply nested with the industry's concerns and applications. More specifically we rely on:
◗ an industrial platform of integration offered by one partner of the project (GVT:
Generic Virtual Training),
ON GOING
PROJECT
CONTACT
Bruno ARNALDI
INSA RENNES
+33 (0)2 99 84 72 61
[email protected]
http://corvette.irisa.fr/
◗ sizeable industrial and collaborative scenarios,
◗ external users (club of industrial users) who, by submitting scenarios and constraints,
guarantee the relevance of the project outputs.
PARTNERS
Large companies:
AFPA,NEXTER, TRAINING,
The project seeks to put in synergy a number of scientific axes:
SMEs:
GOLAEM, VIRTUALYS
◗ Collaborative work that can handle representative complex scenarios of industrial training,
◗ Virtual Human for its ability to embody the user as an avatar and acting as a collaborator during training,
CEA-LIST, ENIB, INSA RENNES
◗ Natural communication between users and virtual humans for task-oriented dialogues
◗ Methodology in cognitive psychiology for the assement of the effectiveness of the
collaboration of users and virtual humans to perform complex cooperative tasks in a
virtual environment.
PROJECT DATA
Coordinator:
INSA RENNES
Call:
ANR
Start date:
October 2010
Duration:
36 months
Global budget (M2):
2.2
Funding (M2):
1.0
The project is still in the study phase but some directions are emergingto address the
projects goals. We define the specifications to archieve the creation of our new
architecture for training applications. We also study the states of the art in the fields:
collaborative work, virtual human, communication, scenarios. Finally, we specify the
two indutrial scenarios of the project.
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Diagnosis
DIAFORE
Diagnostic de Fonctions Réparties
COMPLETED
PROJECT
◗ Online diagnostics to improve the safety and maintenance of trucks: detect, locate and automatically identify sensor failures in trucks during operation.
◗ The manifestation of a failure on one or more electronic sensors can cause unexpected and dangerous behaviours of the truck for the safety of the driver and his environment. Furthermore, the
prolonged detention of a truck due to a failure results in financial penalties for the company. The
increasing complexity of electronics in trucks makes more difficult the identification of the faulty
sensors. Fault diagnosis of electronics in garage (offline) exists today. The automatic diagnosis of
faults during operation of the truck (online) is still a challenge.
◗ The project objective is to propose solutions for future electronic design by including at the same
time the means of diagnosis.
CONTACT
PARTNERS
From modelling of breakdowns to integration of diagnostics in embedded electronics: the working
method in the project followed the V's cycle. A first step involved modelling breakdowns in the electronic
sensors of the truck, described in a rigorous language, non verbose (e.g. Simulink, Formal language).
In this representation, the electronic functions of the truck are described and the physical medium is
abstracted (ECU, bus, sensors). The second step involved the development and integration of diagnostic features in all. The latter raises an indicator output when the failure is detected on an input function under diagnosis. Another output provides a code indicating the type of failure (e.g. failure of the
speed sensor of the third rear wheel). The third step was the programming of these new features (software) in the electronic controllers of the truck with the constraint to make this integration as transparent as possible in the existing functions. At each step, the correct functioning of the whole was
verified using simulation and testing. An additional study focused specifically on the modifications in
the original functions of the truck to improve the efficiency of diagnosis (diagnosability analysis).
Large companies:
RENAULT TRUCKS
SMEs:
SERMA INGENIERIE
CEA LIST, UPS11-LRI,
UTC-HEUDIASYC
PROJECT DATA
◗ Publications:
Communications:
• A Probabilistic Analysis of Diagnosability in Discrete Event Systems, Grèce, juillet 2008.
• Optimal observability for diagnosability, Australie, septembre 2008.
• Optimizing the system observability level for diagnosability,Grèce, octobre 2008.
• Diagnosability of Input Output Symbolic Transition Systems,Portugal, septembre 2009.
• Co-modelling and simulation with multilevel of granularity for real time electronic systems
supervision. England, 1–3 April 2008.
• Observability Checking to Enhance Diagnosis of Real Time Electronic Systems. October 27-29,
2008. Canada.
• Symbolic Execution Based Model Checking of Open Systems with Unbounded Variables. TAP 2009,
Switzerland.
• Diagnosability verification with Petri net unfoldings, Chili, septembre 2009.
• Smart Distance Keeping: modeling and perspectives for embedded diagnosis, Liverpool,
Angleterre, 27-29 janvier 2010.
Chapitre d'ouvrages:
• [10] M. Khlif, M. Shawky. Book chapter: Enhancing Diagnosis Ability for Embedded Electronic
Systems Using Co-Modeling. International Joint Conferences on Computer, Information, and
Systems Sciences, and Engineering (CIS2E 07). December 3 - 12, 2007.
◗ Experimentations:
• [1] a prototype tool to analyze the diagnosability of an electronic system. The demonstration of
this prototype is done on the case study (SDK Smart Distance Keeping) simulated. It can conclude on the diagnosis of failure ie, there exists at least one instance of the operating system
for which the failure can not be discriminated;
• [2] a co-real/simulated online diagnostic demonstrator applied to the case of the SDK. The diagnosers identify the fault using analytical redundancy. The case study consists of 4 ECUs and a single CAN bus. Three ECUs are simulated on a computer and one is real. The simulated CAN bus
is connected to the real CAN bus via a specific interface. The diagnosers are deployed on the
4 ECUs. One of them has the role of supervisor and provides the final diagnosis (sensor fault).
Validation tests show that the diagnosers identify systematically failures injected the diagnosis
latency due to CAN communications remains quasi constant;
• [3] a prototype tool for analyzing the observability of failures, once the electronic system integrated into the truck. The demonstration of this prototype is done on the SDK implemented in
the previous demonstrator.
18
Olivier HERON
CEA LIST
+33 (0)1 69 08 68 89
[email protected]
Coordinator:
CEA LIST
Call:
ANR
Start date:
February 2007
Duration:
43 months
Global budget (M2):
3.7
Funding (M2):
1.9
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Diagnosis
DIAPA
DIagnostic Automobile Par Apprentissage
ON GOING
PROJECT
The goal of DIAPA is to improve the diagnosis of vehicles electronic subsystems. A
comprehensive analysis of log-files containing records of components operation and
default codes will be done using advanced data mining and statistical learning
techniques. The aim of this project is to automatically handle the log-files, increasing the
on-line processing, and establishing better links between diagnosis and design models.
◗ Currently, few solutions give satisfaction in term of collecting and processing diag-
CONTACT
Charles-Henri GARIH
DELPHI
+33 (0)1 34 30 34 76
[email protected]
Fahed ABDALLAH
UTC-HEUDIASYC
+33 (0)3 44 23 52 15
[email protected]
nosis information carried out on electronic subsystems of the vehicles. The aim of
the automotive industry is to improve the reliability and serciceability and reduce the
costs of Non Trouble Found.
◗ Develop generic diagnosis methods regarding the large variety of possible configurations of subsystems and their failures.
PARTNERS
◗ Establishing better links between diagnosis and design models.
Large companies:
DELPHI, FREESCALE, PSA,
SERMA INGENIERIE
CNRS-LAAS, UTC
PROJECT DATA
Coordinator:
DELPHI
Call:
ANR
Start date:
January 2008
Duration:
48 months
Global budget (M2):
3.1
Funding (M2):
1.2
◗ Give a more precise study of system specifications and Logfiles diagnosis.
◗ Diagnosis algorithms adapted to logfiles with Heterogeneous log-files input data.
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EDONA
Environnements de Développement
Ouverts aux Normes de l'Automobile
◗ Build a common repository for consistent positioning and usage of software tools.
◗ Build an interoperability platform for tool exchange and seamless operation over the
development cycle.
◗ Build solutions for dependability and real-time on the basis of both innovative and
current technology:
• Specification and requirements traceability;
• Functional and temporal validation;
• Design of real-time and deterministic solutions;
• HMI design and validation under safety constraints.
The Edona integration platform has been developed, validated, and made available to the
members.
◗ The Eclipse part is available to members though an update site.
◗ The Autosar-related part of has been transferred to and will be directly maintained by the
Artop User Group.
◗ Other parts as well as components produced by vertical workpackages have been brought
close to production quality, ready for integration in commercial products via transfer contracts from CEA and to the Listerel consortium.
◗ Publications:
• F. Ougier, F. Terrrier, EDONA: an Open Integration Platform for Automotive Systems Development Tools, ERTS 2008, 29/01/2008
• S . Boisgérault, M.O. Abdallah, JM. Temmos, SVG for automotive user interfaces, SVGOpen
2008, 26/08/2008
• F. Ougier, F. Terrrier, EDONA: an Open Development Platform to Automotive Standard,
IAEC2008, 24/11/2008
• F. Ougier, F. Terrier, "Eclipse based architecture of the EDONA platform for automotive system development", Conférence ERTS 2010, Toulouse, 19-21/05/2010.
• A. Albinet, L. Quéran, B. Sanchez, Y. Tanguy, "Requirement management from System modeling to AUTOSAR SW Components", Conférence ERTS 2010, Toulouse, 19-21 Mai 2010.
• S. Anssi, S. Tucci-Pergiovanni, C. Mraidha, A. Albinet, F. Terrier, S. Gérard, "Completing
EAST-ADL2 with MARTE for enabling scheduling analysis for automotive applications",
Conférence ERTS 2010, Toulouse, 19-21 Mai 2010.
• C. Aussaguès, D. Chabrol, V. David, D. Roux, N. Willey, A.Tournadre, M. Graniou, "PharOS,
a multicore OS ready for safety-related automotive systems: results and future prospects",
Conférence ERTS 2010, Toulouse, 19-21 Mai 2010.
• J.Y. Pierron, A. Lapitre, J.P. Gallois, S. Devulder, T. Gueguen, P. Le Corre, "Matlab/Simulink
functional tests with STB/AGATHA tool", Conférence ERTS 2010, Toulouse, 19-21 Mai 2010.
• S. Boisgérault, E. Vecchié, O. Meunier, J.-M. Temmos, "EDONA/HMI – Modelling of Advanced Automotive Interfaces", Conférence ERTS 2010, Toulouse, 19-21 Mai 2010.
• B. Sanchez, F. Ougier, F. Terrier, “EDONA: an Open Development Platform to Automotive
Standards”, ECFMA 2010, HoPES workshop, Paris, June 15, 2010
• F. Ougier, F. Terrier, “EDONA an Open Platform for Design and Validation of Automotive
Embedded Systems”, 17th ITS World Congress, Busan, Korea, Oct. 25-29, 2010
◗ Job creation : 20
◗ Business creation:
• Some componants have already been incorporated into commercial offers from Edona
members. This is the case for
• Artop support from Geensys (support Artop)
• 3 new components from Obeo
• Enrichment to the PhiSim product line by Sherpa
• Scade Display improvements and , PapyrusMDT-SysML offer from Esterel
20
COMPLETED
PROJECT
CONTACT
François OUGIER
RENAULT
+33 (0)1 76 85 75 72
[email protected]
PARTNERS
Large companies:
CONTINENTAL, DELPHI,
JOHNSON CONTROLS,
PSA PEUGEOT CITROËN,
RENAULT, THALES, VISTEON
SMEs:
ESTEREL TECHNOLOGIES,
GEENSOFT, INTEMPORA,
KNOWLEDGE INSIDE, OBEO,
SEE4SYS, SHERPA
ARMINES, CEA-LIST, INRIA,
POLYTECHNIQUE, SUPÉLEC,
PROJECT DATA
Coordinator:
RENAULT
Call:
FUI3
Start date:
September 2007
Duration:
36 months
Global budget (M2):
16.2
Funding (M2):
6.3
IHS10, MEMVATEX,
O4A PHASE II,
USINE LOGICIELLE
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E’MOTIVE
Environment Modeling
for Perceptive Intelligent Vehicles
The aims of the E'MOTIVE project are the development of a simulator of detection
system, the coupling of this simulator in a bundle of simulation softwares in order to
create a numerical simulation platform for the design and validation of Advanced Driver
Assistance Systems (ADAS), and the validation of the benefits of this simulation
platform. Regarding the first objective, the idea is to ensure the robustness and
reliability of the detection system by creating virtual sensor datas. Regarding the second
objective, the focus is on the design and validation of the ADAS on this validated
detection system.
The deliverables will be a detection system simulator, a numerical simulation platform
for the design and validation of ADAS which will contain a set of applicative softwares
with extended functionalities and interfaced each others, the results of the applications
and validations stage.
ON GOING
PROJECT
CONTACT
Anne CHAMBARD
LMS IMAGINE
+33 (0)1 34 52 17 72
[email protected]
PARTNERS
Large companies:
VALEO
Intermediate size enterprises:
LMS IMAGINE, OKTAL
SMEs:
CIVITEC, INTEMPORA,
SHERPA ENGINEERING
CNRS-LASMEA, INRETS, INSA
ROUEN, INSTITUT D’OPTIQUE
GRADUATE SCHOOL, LCPC,
TELECOM BRETAGNE
PROJECT DATA
The project has been started on October 1st, 2008, for three years. Work Package 2
(Specifications) is achieved, WP3 (Development of the detection system), WP4 (integration) and WP5 (validations) are on-going.
Coordinator:
LMS IMAGINE
Co-label:
MOV'EO
Call:
FUI6
Start date:
October 2008
Duration:
36 months
Global budget (M2):
4.8
Funding (M2):
2.9
CSDL
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GEDRIVER
Green & Efficient Driver
ON GOING
PROJECT
Experimental works of the geDRIVER project (“Green and Efficient Driver”) aim at developing and validating the simulator for training to ecological driving according to 3 major
topics within the “serious game” axis:
◗ To develop the models allowing analysing eco-driving and the follow-up of performances
in a context of training using simulator, which latter logically follows training on real vehicle.
CONTACT
Anton MINKO
OKTAL SA
+33 (0)5 62 11 92 92
[email protected]
◗ To reinforce the interest of driving experience in order to to support the attractivity of
training. For that, the project will draw from the experiments and the techniques already implemented in video games.
◗ To contribute to enrich knowledge in the field of validity of driving training simula-
PARTNERS
tors.
In the context of emergent requirements regarding
vocational training (European directive 2003/59 CE)
and growing eco-driving trend recorded over the
past years, geDRIVER aims at exploring the feasibility of affordable solutions for automotive training
(desktop simulators). Consequently, "Serious
Game" approach coupled with existing simulation
suite SCANeR is considered in the framework of
geDRIVER project, according to the following axes:
◗ enriched gameplay (based on real life situations
such as home-to-work or taxi itinerary) allowing
to involve the driver into the simulation,
Large companies:
MACIF, RENAULT,
RENAULT TRUCKS,
OKTAL SA
Associated partners:
MACIF, RENAULT TRUCKS
SMEs:
KEY DRIVING COMPETENCES SA
ARTS, INSTITUT IMAGE,
LABORATOIRE LE2I,
LEAD-CNRS
◗ virtual guiding metaphors (both visual and audible) allowing to push the simulation as far as possible to the driving reality,
◗ data reading / analysis from a real vehicle.
PROJECT DATA
A special attention is put on the evaluation of project's
result (behaviour-based measures will be taken in
order to issue recommendations and to make
simulator-based training
as close as possible to
the real car-based training; simulator's sickness
analysis is a part of evaluation).
The project has produced and is testing prototypes/demonstrators allowing to:
◗ integrate video "game"-based approaches and paradigms into "serious" automotive
simulation
◗ integrate new interactive visual and auditive guiding techniques
◗ get real vehicle data (via CAN bus).
Demonstrations are available for light vehicles 'and buses' drivers.
22
Coordinator:
OKTAL SA
Call:
SERIOUS GAMING
Start date:
December 2009
Duration:
23+5 months
Global budget (M2):
1.2
Funding (M2):
0.7
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HECOSIM
Heterogeneous Co-simulation
and system hybrid Simulation
The design of a mechatronic system, inherently heterogeneous, is made currently with tools
adapted to each sub system (various modelers and simulators). Each sub system is validated
separately, and the integration tests are performed at the end of the development cycle (physical mock up); problems are discovered late and generate high cost to be corrected.
The objective of the HeCoSim project is to provide simulation tools through two approaches of
co-simulation and global simulation based on available tools to:
◗ control sizing and the integration of automotive components of heterogeneous nature,
◗ optimize an electronic architecture through model simulation,
◗ validate a system by scenarios filtered and generated by the tools,
◗ validate the embedded code on its target in its physical environment.
Problems treated and solutions sought:
◗ remove a major technical issue on asynchronous co-simulation via the tool RT-Builder;
◗ create co-simulation sockets between the tool RT-Builder and the tools: Statemate, MatLab/Simulink, SystemVision, UNISIM;
◗ have a good representativeness and interoperability of the simulation models of the microcontroller Star12X and of the processor core ARM7 on the open source UNISIM tool;
◗ extend the AGATHA semantics to the Statemate and Simulink models;
◗ specify a filter for AGATHA to generate relevant tests regarding industrial criteria: undesirable cases, deadlocks, MC/DC approach.
Consequences at technical level:
◗ extension of the simulator RT-Builder to co-simulation;
◗ achievement of a complete and continuous tool chain with the core activity tools;
◗ validation of the embedded code with its physical environment;
◗ achievement of a heterogeneous simulation core for AGATHA and a filter for the MC/DC
approach.
COMPLETED
PROJECT
CONTACT
Jean-François BISSON
VALEO
+33 (0)1 45 13 82 55
[email protected]
PARTNERS
Large companies:
VALEO
SMEs:
SEE4SYS
CEA LIST, UTC-HEUDIASYC
PROJECT DATA
Coordinator:
VALEO
Call:
ANR
Start date:
December 2006
Duration:
39 months
Global budget (M2):
2.7
◗ Publications:
Communications (conference):
• IAEC’2008: “Improving Model Based Design Quality and Safety for Mechatronic Systems
via Co-simulation”.
• Workshop System@tic 2008.
• EMM’2009: “A Model Based Design Compliant Framework for Mechatronics Systems Development”.
• Workshop System@tic 2009.
Articles:
• Co-modelling and simulation with multilevel of granularity for real time electronic systems supervision, England, 1-3 April 2008.
• Observability Checking to Enhance Diagnosis of Real Time Electronic Systems Canada,
October 27-29, 2008.
• Validation of Electronic Architecture Properties Analysis Based on Automotive Platform,
Italy, July 4-7, 2010.
• Diagnosability of Embedded Architectures; Premise of analysis methodology.
• Symbolic Execution Techniques Extended to Systems in ICSEA 2009.
Funding (M2):
1.4
◗ Job creation:
Two hiring, one at CEA-LIST/LSL and another one at SEE4SYS.
23
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ICADAC
Improved Camera based Detection
under Adverse Conditions
The ICADAC project is dedicated to road safety improvement under adverse meteorological
conditions. Being able to detect and quantify these adverse conditions of operation using
only a video signal is a strong challenge for driver assistances systems (ADAS). The first
step is to detect and quantify this signal degradation, and identify their causes. It lead to
estimate a confidence index on the operation of an ADAS based on cameras and its selfdiagnosis. Meanwhile, it is possible to adapt the sensor operation, to dynamically adjust its
parameters or to improve signal quality. It is also a way to bring further new driver
assistances systems such as automation of fog lamps, control of adaptive tail-lights or
driver warning in case of inadequate behaviours.
This project deals with numerous innovations:
◗ On-line diagnosis of the camera operation. A camera integrated in a vehicle must
have a self-diagnosis functionality. This project will be one of the first to propose a
method to qualify the video signal.
ON GOING
PROJECT
CONTACT
Didier AUBERT
IFSTTAR / LIVIC
+33 (0)1 40 43 29 18
[email protected]
PARTNERS
Large companies:
AUDI, VALEO
ARMINES, IFSTTAR, IOSB
◗ Detection and characterisation of night fog. At night, the fog is mainly perceived
through the halo phenomenon and the backscattered veil. Both of them are due to the
scattering of the beams of the ego-vehicle or of the other vehicles. This project will
thus deal with a new fog context to, finally, achieve a complete fog detection and characterisation system.
Coordinator:
IFSTTAR
◗ Detection and characterisation of
rain by an embedded camera. Sensors already exist for this purpose.
The idea is to replace them by a
camera system to get only one sensor dealing with several functions.
Co-label:
MOV'EO
Call:
ANR
◗ Image improvement. Thanks to the
image improvement, existing ADAS
based on camera sensor with benefit from this project.
Start date:
July 2009
Duration:
36 months
◗ Demonstration of new applications.
◗ Developpement of new test benches
Global budget (M2):
3.8
dedicated to fog and rain.
After the description and the selection of applications that may result from the project,
partners are developing the technological necessary components.
A system for detection and characterization of day fog was upgraded and is operational.
A new night fog detection system was developed and a patent was deposit. It still remains to characterize night fog. Systems for detecting rain drops and rain effects are
under development. A patent was deposit too in this topic.
Further researches deal with image contrast restoration when corrupted by meteorological adverse conditions. Thus, a system restoring images disturbed by the presence
of raindrops on the windshieldwas done. New methods have been developed to deal
with day fog disturbance too. They outperform the state of the art in the field.
To test these developments test benches have been made (night fog test bench, embeddable rain test bench), both ray tracing and physical fog simulators have been improved, vehicles were equipped and databases have been simulated or recorded on real
situations.
24
PROJECT DATA
Funding (M2):
1.8
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Interface Homme-Système à 10 ans
COMPLETED
PROJECT
The target of IHS10 project is to develop a new R&D tool that will be dedicated to the
Human-System Interfaces (HSIs) for the Automobile. It consists in a Virtual Reality (VR)
equipment, which will contribute to reduce development cycle time and cost of new
vehicles and platforms. It will be used on the higher level of the two branches Requirements / Validation - of the V-cycle, enabling actors to work in a collaborative
way, replacing physical by virtual prototyping and improving quality of results. The field
that this tool will cover is: geometry, styling, ergonomics, controls, displays, functions
and associated softwares. The sensorial channels of this new VR equipment are:
3D vision, tactile / haptic and acoustic, in an immersive environment of the User.
◗ To use the new generation of HD projectors and 3D televisions for a better definition
and to make the simulator more transportable.
◗ To develop and standardise the software and the equipment to facilitate the exchange
of information between car manufacturers and equipment suppliers.
◗ To develop the sensory touch.
CONTACT
Jean DAUVERGNE
VISTEON
+33 (0)6 08 00 44 07
[email protected]
PARTNERS
Large companies:
PSA PEUGEOT CITROËN,
RENAULT, VALEO, VISTEON
SMEs:
HAPTION, INTEMPORA
ARMINES, CEA-LIST
PROJECT DATA
Coordinator:
VISTEON
Call:
FUI1
Start date:
March 2007
Duration:
36 months
Global budget (M2):
5.5
◗ Products:
Design and build a generic simulator for Human System Interfaces (HSIs) and related
interior equipments of a vehicle , based on Virtual Reality techniques, enabling design,
tuning and evaluation of HSIs by the Development Engineers, characterized by:
• Co-localization (Immersion of User “in" the 3D VR environment).
• Multi-sensorial channels: Visual, Haptic / Tactile, Acoustic.
• Multi-domains: Vehicle Interior Components (geometry, aspect, color, textures),
controls, displays, Softwares.
• Interactive: Model and Softwares changes and adaptations.
• High definition.
Funding (M2):
1.9
PSA demonstrator (basis Peugeot 308).
25
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IMOFIS
Ingénierie des MOdèles
des FonctIons Sécuritaires
◗ IMOFIS developed a technology (process+method+framework) aimed to assist safety
engineers to analyse systems and to provide evidence that these systems meet safety
requirements.
◗ IMOFIS framework implements a risk analysis process compliant with international
standards and based on semi-formal (SysML) and formal (B, AltaRica) models of systems and on a model of risk analysis (SOPHIA). Furthermore, IMOFIS framework
tracks the relationships between those models in order to maintain aglobal and consistent view.
COMPLETED
PROJECT
CONTACT
Fernando MEJIA
ALSTOM TRANSPORT
INFORMATION SOLUTIONS
+33 (0)1 57 06 13 73
luis-fernando.mejia
@transport.alstom.com
◗ IMOFIS framework is based on a collection of models of models (meta-models) of
system design and risk analysis which abstract from particular processes and techniques. It is implemented on Eclipse platform and is instantiated for automotive and
railway applications.
PARTNERS
Large companies:
ALSTOM TRANSPORT
INFORMATION SOLUTIONS,
RENAULT
SMEs:
ATEGO, OBEO, SYSTEREL
CEA-LIST, UTC-HEUDIASYC
PROJECT DATA
◗ Publications:
• F. Thomas, F. Belmonte.Using Topcased and a Viewpoint-based Framework to describe Safety Concerns of Railway Signalling Systems. In proceedings of the Topcased Days, Toulouse, France, February 2011.
• F. Belmonte, F. Thomas, LF. Mejia, A. Blas Evaluation des risques des systèmes
ferroviaires, supportée par des langages et outils de modélisation, Congrès
Lambda-Mu 17, La Rochelle, octobre 2010.
• D. Cancila, F. Terrier, F. Belmonte, H. Dubois, H. Espinoza and S. Gérard. ModelBased Safety Engineering. In Proceedings of the 2nd International Workshop on
Model Based Architecting and Construction of Embedded Systems (ACES-MB 2009)
in conjunction with MoDELS Conference, October 2009, Denver, Colorado, USA.
• D. Cancila, H. Dubois and M. Adedjouma. Sûreté de Fonctionnement dans un
processus base sur l’Ingénierie Dirigée par les Modèles. Proceedings of 5ème
Journée sur l’Ingénierie Dirigée par les Modèles, IDM’09. Mars 2009, Nancy, France.
◗ Product(s) or Service(s):
• SOPHIA: Meta-model of risk analisys concepts (UML and DSL versions).
• SOPHIA Modellers: Eclipse based modellers for SOPHIA (Papyrus and OBEO Designer versions).
• Analyser of independence of functions in a SysML model.
• Allocator of safety targets to functions in a SysML model.
◗ Job creation:
• 1 engineer at ALSTOM TRANSPORT INFORMATION SOLUTIONS
• 1 researcher at CEA
Development of safety assurance modelling tools.
26
Coordinator:
ALSTOM TRANSPORT
INFORMATION SOLUTIONS
Call:
ANR
Start date:
June 2008
Duration:
36 months
Global budget (M2):
4
Funding (M2):
1.6
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IMPRO
Implementability and Robustness
of Timed Systems
The aim of project ImpRo is to address the issues related to the practical implementation
of formal models for the design of communicating embedded systems: such models
abstract many complex features or limitations of the execution environment. The modeling
of time, in particular, is usually ideal, with infinitely precise clocks, instantaneous tests or
mode commutations, etc.
The objective of the project is thus to study to what extent the practical implementation
of these models preserves their good properties. This includes an extensive theoretical
study coupled with a more practical application of the developed methods to a case
study based on the AUTOSAR architecture, a standard of the automotive industry,
leading to the development of a demonstrator and, ideally, to automatic code generation
for timed formal models.
ON GOING
PROJECT
CONTACT
Didier LIME
ÉCOLE CENTRALE
DE NANTES, IRCCYN
+33 (0)2 40 37 69 76
[email protected]
PARTNERS
IRISA, LIP6, LSV
The main scientific advances expected from the project are:
◗ the definition of a generic mathematical framework for the study of implementability. This will allow us to compare the existing theories and unify our developments
throughout the project;
◗ a theory for the measure of implementability through probabilistic models to quantify how robust to implementation the models are;
◗ new techniques for the verification, control and diagnostic of implementability. This
includes answers to the following questions: is
the model implementable, can we automatically modify it to make it so, and can we monitor the implementation to make sure it behaves
as planned;
PROJECT DATA
Coordinator:
IRCCYN
Co-label:
IDFORCAR
Call:
ANR
◗ joint handling of the specific issues of clock
Start date:
March 2011
precision, resource management, and distributed systems (e.g. accounting for scheduling,
clock drifts and resynchronization, etc.)
In addition, the project will produce a demonstrator for the validation of the developed
techniques, based on a real-time operating system implementing the AUTOSAR OS
standard. In the process, we would ideally be able to provide a code egeneration prototype for this target OS.
Duration:
36 months
Global budget (M2):
1.7
Funding (M2):
0.4
The project has just started and the different workgroups are being consituted. The first
priority is the definition of a generic mathematical framework for the study of implementability.
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Integrated Human Modelling and
Simulation to support Human Error
Risk Analysis of Partially Autonomous
Driver Assistance Systems
The objective of the ISI-PADAS project is to develop an innovative methodology to
support risk-based design, approval and acceptance of Partially Autonomous Driver
Assistance Systems (PADAS) focusing on the elimination and mitigation of driver errors
by an integrated Driver-Vehicle-Environment (DVE) modelling approach.
Main part of the DVE modelling approach is an effective and working simulation of driver
behaviour, based on modelling driver behavior and cognitive processes as well as
PADAS behaviour, included in computerised simulations that can be applied in early
development stages to predict driver behaviour including driver errors to support decisions between system design alternatives and to test the need for specialized assistance systems.
ON GOING
PROJECT
CONTACT
Jean-Yves COUSTENOBLE
VISTEON SYSTEMES
INTERIEURS
+33 (0)3 21 13 91 98
[email protected]
Dr: Rainer HEERS
VISTEON INNOVATION
& TECHNOLOGY
+49-2273-595-1423
[email protected]
PARTNERS
Large companies:
CENTRO RICERCHE FIAT
(ITALY), VISTEON (FRANCE,
GERMANY),
SMEs:
KITE SOLUTIONS (ITALY)
CEA (FRANCE), CIDAUT (SPAIN),
DLR, INRETS, OFFIS, SUPELEC,
TU BRAUNSCHWEIG (GERMANY),
UNIVERSITY OF MODÈNA (ITALY)
◗
◗
◗
◗
◗
◗
◗
Definition of traffic scenarios relevant for PADAS.
Driving studies and driving simulators studies (driving with/without PADAS support).
Coordinator:
OFFIS
Task representation language.
Ontology of driving task achieved.
Implementation of time for accelerated / real-time testing.
International Scientific advisory committee established.
Scientific conference “Human Modelling in Assisted Transportation (HMAT), May/June
2010.
◗ DVE modelling completed.
◗ Driving simulators studies completed (driving with PADAS support).
In progress:
◗ Data Analysis from Driving simulators studies (driving with PADAS support).
◗ Dissemination and prepare for industrial exploitation.
◗ Book publishing “Human Modelling in Assisted Transportation (HMAT), Springer Publishers.
28
PROJECT DATA
Co-label:
OFFIS
Call:
EU FP7
Start date:
September 2008
Duration:
36 months
Global budget (M2):
1.5
Funding (M2):
1.1
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ICT & Transport
Extension de itransports
aux perturbations et au vélo
à travers une démarche 2.0
The project iTransports 2.0 develop from itransports content which is the only comprehensive information on transport at the national level, collaborative content on two important themes of transport for the period ahead: the disturbances and the
development of drawdowns by bike
The entire contents on the disturbances in transport will be supplied from the information transport networks, but also from users on itransports and social networks.
TIC &
VILLE
DURABLE
COMPLETED
PROJECT
CONTACT
Dominique CARRE
MOVIKEN
+33 (0)1 60 33 03 03
[email protected]
A PC Information on disturbances of transport will be implemented on an experimental basis over a period of 6 months.
A collaborative information will be put in place for cycling on an experimental drawdown
on the area of Val-Maubuée.
PARTNERS
SMEs:
HAPLOID, MOVIKEN
The project outcomes iTransports 2.0 are important in different ways:
INRETS
◗ They can grow on one of the current difficulties of transport, information on disturbances, which darkens their
image so that their development
is expected and desired.
◗ They make this content available
PROJECT DATA
to actors businesses, communities, media, vehicle manufacturers, .. that will make a very wide
use.
Coordinator:
MOVIKEN
Call:
WEB INNOVANT
◗ They confirm the advantage
Moviken took on the transport information market with a solution
that will more than ever the only
of its kind in Europe.
Start date:
December 2009
Duration:
18 months
◗ They should allow you to create a
revenue stream for mobile web
iTransports.
Global budget (M2):
0.4
Funding (M2):
0.2
◗ Job creation: 8
New information services.
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Logiciels d'observation des vulnérables
COMPLETED
PROJECT
LOVe proposes to contribute to road safety by focusing primarily on the safety of
pedestrians. The objective is to achieve embedded software to observe vulnerables.
These software must be reliable and safe and quickly implantable on the range. An
industrial design process of software has been adopted to clearly specify the technical
constraints (sensors, computers), contextual (scenarios considered) and methods for
validation of algorithms. LOVe is rich of a large variety of approaches using data laser,
mono and stereo-vision both for the detection, localization, recognition and tracking of
pedestrians. These solutions can then be combined with various levels of data fusion
algorithms to improve location accuracy and certainty.
CONTACT
Laurent TRASSOUDAINE
UNIVERSITE DE CLERMONTFERRAND 2
+33 (0)6 78 55 31 03
laurent.trassoudaine
@univ-bpclermont.fr
The most significant advance concerns the visual target tracking. Tracking of LASER targets becomes also very powerful. Although information is very fragmented on a pedestrian, the quality of the recognition is generally good. Groups of pedestrians can be
identified too. The stereo has also grown in terms of speed, quality of the disparity map,
segmentation of the road surface and segmentation of objects. Pedestrian recognition
has especially increased in the rapidity of methods and a better classifiers choice. The
data fusion significantly increases the rate of correct detection while decreasing the rate
of false alarms. Especially, the lidar/mono-vision combination has provided good results.
◗ Patents:
2 deposits concerning pedestrians recognition.
◗ Publications:
• Journals - 2 book chapters - 36 conferences.
• Object-level fusion and confidence management in a multi-sensor pedestrian
tracking system; 2009.
• Combination of partially non-distinct consonant beliefs: the cautious-adaptive rule;
July 2009.
• Pedestrian Detection and Tracking in Urban Environment using a Multilayer Laserscanner; to appear in 2010.
• Using stereo-vision to improve the reliability of obstacle detection systems.
• Submitted to IEEE Transactions on Intelligent Transportation Systems.
• Visual pedestrian recognition in weak classifier space using nonlinear parametric
models; San Diego, USA, october 2008.
• Pedestrian Accident Context and Technologic Development in LOVe; Versailles
Satory October 7 & 8, 2008.
• Centralized fusion based algorithm for fast people detection in dense environment;
12-17 May 2009, Kobe, Japan.
• A Bayesian Classification of Pedestrians in Urban Areas: The Importance of the
Data Preprocessing; Seoul, Corée du Sud, 20 - 22 Août, 2008, pp. 195-201.
• Robust obstacles detection and
tracking using disparity for car
driving assistance; San Jose, USA,
January 2010.
Large companies:
RENAULT, VALEO
ARMINES/CAOR,
ARMINES/CMM, CEA/LIST,
CNRS/UTC/HEUDIASYC,
CNRS/UBP/LASMEA,
CNRS/UPS/IEF,
INRIA/EMOTION, INRIA/ICARE,
INRIA/IMARA,
LCPC/INRETS/LIVIC,
PROJECT DATA
Coordinator:
Co-label:
MOV’EO - VIAMECA
Call:
ANR
Start date:
September 2006
Duration:
40 months
Global budget (M2):
8.5
3 start-up:
• Arcure: Software for pedestrian
detection;
• Robocortex: Software for visual
tracking;
• Civitec: road scenes simulation.
Funding (M2):
3.8
30
PARTNERS
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MASCOTTE
MAitriSe et COnTrôle
des Temps d'Exécution
Build methods, techniques and tools to keep pace with execution times of real-time
applications using static analysis, test on simulators and measures on the real target.
In order to implement new services in cars, the project studies the impact on the
determinism of hardware features in microcontrollers. It defines good practices to use
these mechanisms.
COMPLETED
PROJECT
CONTACT
Pascal SAINRAT
IRIT - UNIVERSITE PAUL
SABATIER
+33 (0)5 61 55 84 25
[email protected]
PROJECT RESULTS
◗ Technologies:
Simulation (Harmless), static analysis (Otawa), test (PathCrawler).
◗ Publications:
• Damien Hardy, Isabelle Puaut - WCET analysis of multi-level noninclusive set-associative instruction caches - 29th IEEE Real-Time
Systems Symposium, Barcelona, Spain, December 2008.
• Rola Kassem, Mikaël Briday, Jean-Luc Béchennec, Guillaume Savaton, Yvon Trinquet - Simulator Generation Using an Automaton Based Pipeline Model for Timing
Analysis - International Multiconference on Computer Science and Information
Technology, October 2008, Poland.
PARTNERS
Large companies:
FREESCALE, RENAULT
SMEs:
GEENSYS
IEF, IRCCYN, IRISA/INRIA, IRIT,
LAAS
• Roman Bourgade, Clément Ballabriga, Hugues Cassé, Christine Rochange, Pascal
Sainrat - Accurate analysis of memory latencies for WCET estimation - International Conference on Real-Time and Network Systems (RTNS 2008), Rennes,
October 2008.
• Marianne de Michiel, Armelle Bonenfant, Hugues Cassé, Pascal Sainrat - Static
loop bound analysis of C programs based on flow analysis and abstract interpretation IEEE International Conference on Embedded and Real-Time Computing Systems and Applications (RTCSA 2008), Kaohsiung, Taiwan, August 2008.
• Damien Hardy, Isabelle Puaut - Predictable code and data paging for real-time systems - 20th Euromicro Conference on Real-Time Systems, Prague, Czech Republic,
July 2008.
Use of the technologies on an automotive application.
PROJECT DATA
Coordinator:
IRIT
Call:
ANR - 2005
Start date:
January 2006
Duration:
42 months
Global budget (M2):
3.5
Funding (M2):
1.4
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MEMVATEX
Modeling Methods for Validation
& requirements Traçability
Definition of a methodology for the modeling and the validation of requirements trough
a design flow for embedded real-time systems. This design flow guaranty the full
traceability and the validation of requirements from their initial request down to their
implementation. A special focus is put on non-functionnal requirements, like timing
requirements.
Project WebSite : www.memvatex.org
COMPLETED
PROJECT
CONTACT
Arnaud ALBINET
CONTINENTAL AUTOMOTIVE SAS
+33 (0)5 61 19 73 30
[email protected]
PROJECT RESULTS
◗ Technologies:
• A metamodel for requirements modeling,
validation and traceability.
• An implementation of the Requirement
Meta-model as a specific UML-profile in
Artisan Studio toolsuite.
• The implementation in Artisan Studio toolsuite of the MARTE profile.
• A methodology under Eclipse-EPF for the expression and the modeling of requirements which integrates the standards EAST-ADL2, MARTE and RIF.
PARTNERS
Large companies:
CONTINENTAL
SMEs:
SHERPA ENGINEERING
CEA LIST, INRIA, UTC
◗ Publications:
• RTCSA 2007 Multiform Time in UML for Real-time Embedded Applications.
• SIES 2007 A multiform time approach to real-time system modeling. Application
to an automotive system.
• ECMDA 07 Model-based methodology for requirements traceability in embedded
systems.
•MCSE07 A Requirement-based Methodology for Automotive Software Development
• ERTS08 The MeMVaTEx methodology: from requirements to models in automotive
application design.
• ACESmb 08 From high-level modelling of time in MARTE to realtime scheduling
analysis.
• ISORC09 Marte CCSL to execute East-ADL Timing Requirements.
A demonstrator of the methodology on an automotive case study based on ARTiSAN
Studio toolsuite and Rectify.
• Job creation: 4 CDD.
PROJECT DATA
Coordinator:
CONTINENTAL
Call:
ANR - 2005
Start date:
January 2005
Duration:
36 months
Global budget (M2):
2.1
Funding (M2):
1
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From System Modeling
to S/W running on the Vehicle
Digital mock-up (DMU) has been the automotive industry best practice that for many
years has enabled many engineers from different disciplines to collaborate in the virtual
world to define future real products better.
However, until now this has been static – i.e. it did not take much account of product
behaviour. In particular, the dynamic behaviour of embedded systems and software was
neither managed nor simulated in DMU.
The purpose of MODELISAR is to introduce functional mock-up (FMU), a next
generation of methods, standards and tools to support collaborative design, simulation
and test of systems and embedded software.
The objectives of MODELISAR are threefold, to:
◗ Enable concurrent design of embedded systems and software, leveraging state-ofthe-art technologies:
• the open Modelica language for component-oriented systems modelling and simulation; and
• the AUTOSAR standard for automotive embedded software.
◗ Define advanced runtime interoperability interfaces to enable open co-simulation between virtual product models, especially in Modelica, and the executable embedded
software, with various configurations.
◗ Deliver a smooth, traceable and integrated process for embedded systems and software across the product life, based on Dassault Systèmes V6 Product Life Management (PLM).
◗ Define a new standard: FMI (Functional
Mock-up Interface) to enable FMI based
co-simulation between various modeling,
simulation tools and generated embedded software
ON GOING
PROJECT
CONTACT
François BICHET
DASSAULT SYSTEMES
+33 (0)1 61 62 44 30
[email protected]
Patrick CHOMBART
DASSAULT SYSTEMES
+33 (0)1 61 62 74 63
[email protected]
PARTNERS
Large companies:
ALTRAN, AVL, DAIMLER,
DASSAULT SYSTEMES,
VOLKSWAGEN, VOLVO TEC
ATEGO SYSTEMS, LMS INTL
SMEs:
ATB, DAVID, DS AB, GEENSOFT,
ITI, LMS IMAGINE, INSPIRE,
QTRONIC, SIMPACK, TRIALOG,
TRIPHASE, TWT, VERHAERT
AIT, ARMINES, DLR,
FRAUNHOFER, FRAUNHOFER
IIS EAS, FIRST, SCAI,
IFP ENERGIES NOUVELLES,
UNIVERSITY OF HALLE
◗ Demonstrate the support of FMI by leading market tools, especially for Modelica
and AUTOSAR
◗ Demonstrate seamless integration of the
Modelica and AUTOSAR design & verification flows on top of V6 PLM infrastructure
PROJECT DATA
Coordinator:
DASSAULT SYSTEMES
OUTCOMES
Call:
ITEA2
FMI specifications for model exchange, for co
simulation and for PLM handling of FMU
related information are publicly available.
Several tool editors of Modelisar consortium
have implemented FMI prototypes to support
generation or execution of FMI compatible
models and SW components.
Project automotive Use Cases are leveraging the FMI Proofs of Concept tools enhancements,
some these demonstrations being partially achieved.
Start date:
July 2008
Duration:
42 months
Global budget (M2):
28
Funding (M2):
NA
CESAR
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O4A2
Open 4 Autosar Phase II
COMPLETED
PROJECT
Proposed a set of methods, tools and technologies that respect Autosar objectives and
needs for automotive ECU: Safety with the new standard ISO2626-2, independence
regarding hardware platform, ease application design and validation
CONTACT
Jean-Sébastien BERTHY
SEE4SYS
+33 (0)2 53 46 00 70
[email protected]
◗ Provide a re-use low level solution Autosar and ISO2626-2 compliant.
◗ Allow industrial to increase
their productivity when they
change of hardware platform by providing a smart
configuration.
PARTNERS
Large companies:
AUTOLIV, DELPHI, PSA
◗ Work on RTE middleware
SMEs:
KEREVAL, SEE4SYS
(Run-Time Environment), in
order to warrant a better
flexibility for the application
integration on low level platforms, and better performances.
CEA, ESEO, ESTACA, IRCCYN
◗ Integrate PharOS technology on Autosar Architecture.
PROJECT DATA
Coordinator:
SEE4SYS
◗ Publications:
Co-label:
ID4CAR
• Jean-Luc Béchennec, Mikaël Briday, Sébastien Faucou, Pierre Molinaro and Yvon
Trinquet. Trampoline : un support pour le développement d'applications temps réel,
15e Colloque National de la Recherche en IUT (CNRIUT'09), juin 2009, Lille, France.
• Jean-Luc Béchennec, Sébastien Faucou.Trampoline: an open platform for (small)
embedded systems based on OSEK/VDX and AUTOSAR, 10th Libre Software Meeting (LSM'09), juillet 2009, Nantes, France.
• Khaled Chaaban, Sébastien Saudrais, Patrick Leserf, “Applying Holistic Distributed
Scheduling to AUTOSAR Methodology”. 5th international conference on Embedded
Real-Rime Software and Systems (ERTS2). 19-21 may 2010, Toulouse, France.
• S. Saudrais and K. Chaaban, "Automatic Relocation of AUTOSAR Components
among Several ECUs", To appear in proceedings of 14th International ACM SIGSOFT Symposium on Component Based Software Engineering (CBSE-2011), June
21th - 23th, 2011, in Boulder, Colorado, USA.
• Chaaban K., Leserf P., Steer-by-wire development using AUTOSAR methodology,
IEEE ETFA 09, 22-26 septembre 2009, Palma de Mallorca, Espagne.
• For See4sys
New Autosar Plateform provider with associated custmer service for customer. 10%
of turn over come from AUTOSAR.
• For Kerevalq
- Certification de conformité AUTOSAR pour BSW.
- Accréditation ISO 17025 – Organisme de certification AUTOSAR Juin 2011.
◗ Job creation:
• SEE4SYS: today, thanks to O4APHS2 and PETRA, 25 people are working on Autosar.
• KEREVAL : 6 people around conformity test activity.
The See4sys 3.1 plateform is currently used in many PSA department.
34
Call:
FUI
Start date:
April 2008
Duration:
36 months
Global budget (M2):
5.2
Funding (M2):
2.1
EDONA, PETRA
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Page 35
ODIAAC
Odométrie Intégrée pour des
Applications d'Aide à la Conduite
en milieu urbain
Vehicle geo-location is essential to several automotive safety applications:
◗ Assistance summoning and accident location warning;
◗ Driver notification of visible or non-visible hazards (hidden vehicles at crossroads,
sensitive area approach, speed limitation).
Geo-location sensors capabilities such as GPS present some drawbacks in urban area
which cause major variation to location accuracy or even losses of continuity of service.
ODIAAC project has proven that an integrated camera can be used as a complement
to GPS based geo-location systems.
COMPLETED
PROJECT
CONTACT
François GASPARD
CEA LIST
+33 (0)1 69 08 46 84
[email protected]
PARTNERS
Nowadays vehicle geolocation systems (GPS receiver mainly) have shown their ability to
meet the geolocation need only due to driver control on the vehicle. In case of Advanced
Driving Assistance Systems, as specified by
automobile industry, new criteria have to be met:
◗ cost / accuracy compromise: next generation
satellite-based solutions accuracy should be
of a meter. This accuracy is only theorical and
hide issues of signal occultation (in tunnels)
or multipaths (reflection of signals on buildings). Use of differential correction can improve accuracy but has the drawback to need
an expensive network of reference stations
(user cost on priced subscription);
Large companies:
RENAULT
SMEs:
DOTMOBIL
CEA LIST, LASMEA
PROJECT DATA
Coordinator:
CEA LIST
◗ measure integrity: for a fully satisfying safety
Call:
ANR
device for geolocation, the positioning system
has to provide quality of service which results
to a confidence indicator on measure. This
confidence is not fully assured by GPS systems;
Start date:
May 2007
◗ continuity of service: geolocation has to be pro-
Duration:
30 months
vided anytime in which satellite technologies
are ineffective due to occultations. It is then
necessary to propose an alternative to keep on
localizing the vehicle during GPS losses.
Global budget (M2):
1.7
ODIAAC is a hybrid geolocation prototype of lowcost on-vehicle sensors (GPS, odometer, camera), which provides on-demand accurate
position together with.integrity indicator.
Funding (M2):
0.7
◗ Patents: 1
◗ Publications:
5 publications including 3 international.
Realisation of an embedded demonstrator allowing quantitative evaluation of system
thanks to on the ground reality.
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PETRA
Plateformes d'Exécution
de Référence AUTOSAR
Develop a platform reference implementation consistent with AUTOSAR3.1 and 4.x and
ISO 26262, based on the microcontroller architecture mutli-core Leopard ST Microelectronics and Freescale
ON GOING
PROJECT
CONTACT
Jean-Sébastien BERTHY
SEE4SYS
+33 (0)2 53 46 00 83
[email protected]
◗ Provision of a first platform for the entire sector (national manufacturersand suppliers located in Fance) motor to accelerate the industrial exploitation of these technologies and compliance with the standard.
◗ Position technology "Power Architecture" as a world leader.
◗ Provide access to all the players in the automotive sector and facilitate the deployment of these innovative technologies to SMEs entering new (collective action DESTAR)
◗ Consolidate the positions of SMEs and KEREVAL See4sys,
◗ Initiate technology market PharOS
PARTNERS
Large companies:
AUTOLIV, CONTINENTAL,
DELPHI, FREESCALE, JCAE,
PSA, RENAULT, ST
MICROELECTRONICS, VALEO
SMEs:
KEREVAL, SEE4SYS
CEA
PROJECT DATA
Coordinator:
SEE4SYS
Co-label:
ID4CAR, MOV’EO
Call:
FUI10
Start date:
October 2010
Duration:
24 months
Global budget (M2):
7.8
Funding (M2):
2.7
O4AP2 - EDONA
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Iterative Design Process
for Self-Describing Real-Time
Embedded Software Components
Development of a design method for self-adaptive systems that are built out of components. In order to integrate the latter into a (possibly already running) system, the
components need to describe their needs in terms of functional and non-functional requirements (self-descriptive components). Whereas the approach is domain independent, the main application area is the automotive domain (key domain of partner
Fraunhofer ESK).
ON GOING
PROJECT
CONTACT
Ansgar RADERMACHER
CEA LIST, laboratoire LISE
+33 (0)1 69 08 38 12
[email protected]
◗ During design, we need to evaluate resource consumption of system parts and optimize the estimation of overall system resource requirements.
◗ During runtime, want to adapt resource allocation depending of estimated resource
consumption and safety criteria, discover environmental changes or discover/use services that appear dynamically.
The complexity of upcoming embedded systems can not be managed by traditional methods, as studied in the automotive domain, as exemplary application area. Self-adaptive
systems and self-organization paradigms are promising approaches to tackle arising
challenges. But no suitable design methodology for self-adaptive systems allowing design and evaluation of self-adaptive
behavior exist: Today’s systems are
developed statically at design time
and lack the ability to describe their
structure and status at runtime.
This is inevitable information for
self-adaptive systems enabling
these to identify the context and
adapt adequately. This system
adaptability needs to be well defined, especially in real-time embedded systems which impose
timing and resource constraints on
the system behavior which must in
particular be meet during the adaptation process.
PARTNERS
CEA, FRAUNHOFER ESK,
MUNICH
PROJECT DATA
Coordinator:
FRAUNHOFER - CEA
Call:
ANR
Start date:
September 2009
Duration:
36 months
Global budget (M2):
0.6 (CEA)
1.2 (CEA+Fraunh.)
Funding (M2):
0.3 (CEA)
0.8 (CEA+Fraunh.)
◗ The project has been presented at the PICF (Programme Inter Carnot Fraunhofer)
event end of November 2009, at the Systematic workshop in December 2010 and at the
3rd workshop on adaptive and reconfigurable embedded systems (APRES 2011).
◗ Major use cases, a first meta-model for self-X information and an initial tool-chain
supporting self-X aware applications have been defined.
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Dependability of
monitoring systems
Safety Check of Automotive Software
& Hardware Architectures
Application of ISO 26262 standard on an example case of motor control in an automotive
application.
◗ Replacement of an architecture with external redundancy (2 microcontroller) by an
architecture with internal redundancy (dual core microcontroller).
◗ Development of an analysis tool, of an HMI, of numerical simulation of the system and
its components including fault injection.
ON GOING
PROJECT
CONTACT
Jochen LANGHEIM
STMICROELECTRONICS
+33 (0)1 58 07 75 25
[email protected]
◗ Adaptation of component models, in particular of the dual core microcontroller.
◗ Creation of booklet with rules for a simple and rapid application of the ISO standard
whilst assuring functional safety of the system.
PARTNERS
◗ Harmonise the approaches of functional safety in the supply chain considering:
• ISO 26262 (especially the creation
of the safety files);
• AUTOSAR;
• System design.
Large companies:
DELPHI, RENAULT,
STMICROELECTRONICS
ESG FRANCE
SMEs:
KNOWLEDGE INSIDE
◗ Thanks to the innovative tool of Know-
UTC
ledge Inside it shall be possible to:
• Better understand the market
needs;
• Develop consequently an offer;
• Become more competitive.
◗ Improve the understanding between
PROJECT DATA
the “system” actors and the “component” actors.
Coordinator:
STMICROELECTRONICS
Co-label:
MOV’EO
◗ A tool environment allowing the description of heterogenous systems and the inte-
Call:
FUI8
grated safety analysis in systems developments (Version DEMO architect).
◗ Models harmonised between actors.
◗ A well explained application case for the industry.
◗ A complete solution for the introduction of the ISO26262 at the officialisation of the
standard in 2011.
◗ Drafts of templates facilitating the collaboration between the actors in the supply
chain (Datasheet).
Start date:
October 2009
Duration:
24 months
Global budget (M2):
4.4
Funding (M2):
1.4
EDONA
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Systèmes Critiques pour l’Automobile :
Robustesse des Logiciels Exécutifs
Temps-réel
The main objective of the SCARLET project is to build methods and software techniques for the
optimized implementation of robustness mechanisms in multi-layered automotive software supporting
future highly critical functions.
The project will take into account automotive standards and practice such as AUTOSAR, future
ISO26262 and the use of Off The Shelf Components, commercial or not.
The project consists in three main work packages.
◗ The first work package defines a methodology indicating the requirements, criteria and recommendations for the use of software robustness mechanisms.
◗ The second work package aims at developing mechanisms for software robustness improvement for open or closed (COTS) software.
◗ And the third one consists in characterizing and validating the methodology and mechanisms on
a demonstrator derived from a vehicle.
◗ Requirements and industrial needs, constraints of automotive domain.
• State of the art by the academics.
• Fault model developed and shared.
◗ Definition of the reflexive approach and experimentation going on an experimental Autosar platform.
◗ Runtime environment for hard real-time constraints for automotive.
First deliverable and mockup.
◗ Taking into account the automotive context:
• Autosar (study of mechanisms of latest specifications);
• Under construction ISO 26262;
• Interaction with silicon vendors: Freescale, Infineon.
◗ Runtime environment real-time and robust for automotive [CEA LIST].
• Dependability
- Generic (application-independent mechanisms);
- Reproducibility of the execution;
- Automatic partitioning spatial and temporal;
- Management of failure allowing the recovery of only the defective function without interference on the rest of the system.
• Coexistence of different levels of criticality possible.
• Requirements of industrials and ISO 26262 (ASIL D) addressed => Mockup made on chip
S12XEP100.
COMPLETED
PROJECT
CONTACT
Philippe QUERE
RENAULT
+33 (0)1 76 85 63 60
[email protected]
PARTNERS
Large companies:
RENAULT, VALEO
SMEs:
TRIALOG
CEA, CNRS-LAAS,
INRIA-LORIA, IRCCYN
PROJECT DATA
Coordinator:
RENAULT
Call:
ANR2006
Start date:
May 2007
Duration:
42 months
◗ Publications:
International conference
• Robustness of modular multi-layered software in the automotive domain: a wrapping-based
approach. Espagne, 22-26 Septembre 2009.
• An approach for improving fault-tolerance in automotive modular embedded software. 17th International Conference on Real-Time Networked Systems (RTNS 2009), Paris, 26-27 Octobre 2009.
• How to configure AUTOSAR OS timing protection. Paris, France, October 2009.
• An analysis of the AUTOSAR OS timing protection mechanism. Spain, September 2009.
• Temporal isolation for the cohabitation of applications in automotive embedded software. Valencia, Spain, April 2010.
• A Spatial and Temporal Partitioning Approach for Dependable Automotive Systems. Majorque
(Espagne), Septembre 2009.
• Towards optimal priority assignment for probabilistic CAN-based systems. WIP session of
WFCS'2010, March 2010.
• Towards optimal priority assignment for probabilistic real-time systems with variable execution times. Paris, October 2009.
• Preliminary results for introducing dependent random variables in stochastic feasiblity analysis on CAN. Dresden, May 2008.
• Probabilistic real-time schedulability: from uniprocessor to multiprocessor when the execution
times are uncertain.
Thèses de doctorat
• Robustesse du logiciel embarqué multicouche par une approche réflexive: application à l'automobile.
Global budget (M2):
3.7
Funding (M2):
1.5
39
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Diagnosis
SEEDS
Smart Embedded Electronic
Diagnosis Systems
Automotive electronic system's complexity is growing. With up to 4 km of wires, the
importance of the electrical harness in modern cars is improving. New functions (by
wire systems, in wheel motors, fuel cell) in the near future will make the harness a
critical function on its own.
The objective of the SEEDS project is to design and develop an automatic diagnosis tool
for car harnesses, both for production or garage maintenance and for in-use diagnosis;
able to detect - localize and characterize defects in a complex topology harness.
COMPLETED
PROJECT
CONTACT
Marc OLIVAS
CEA-LIST
+33 (0)1 69 08 48 83
[email protected]
PROJECT RESULTS
PARTNERS
◗ Products:
Large companies:
DELPHI, RENAULT TRUCKS,
SERMA INGENIERIE
Cable or harness diagnosis system
for external maintenance application
(garage) applied to cars and trucks.
SMEs:
MONDITECH
◗ Patents:
• FR 06 06531 – Procédé et dispositif
d’analyse de réseaux de câbles
électriques (WO/2008/009566).
• FR 08 50013 – Procédé pour
l’amélioration de la précision de
détection et de localisation de défauts par réflectométrie dans un
réseau électrique câblé.
CEA, LGEP, INRIA
◗ Technologies:
Cable and harness diagnosis method
based on reflectometry, application
to car and trucks harnesses.
• Propagation models of diagnosis signals in cables.
• Diagnosis theory and models: inverse scattering for defect detection and localisation, model inversion using genetic algorithm.
◗ Publications:
The external diagnosis prototype has been packaged and sent to Delphi's location
in Warwick (England) where it has been under test in real garage conditions since
october 2008. During this test phase, several cars and trucks have been prepared
with various cases of harness defects. Both the project's representative and the
mechanics from Delphi have used the diagnosis system to find the defects and repair
them efficiently. Befor the system was available, usual time needed to repair such
harness defects could reach 2 days, now the average time is less than an hour.
SEEDS using the system
40
Coordinator:
CEA LIST
Call:
ANR
Start date:
February 2006
10 publications.
SEEDS system under test
PROJECT DATA
Duration:
36 months
Global budget (M2):
3.1
Funding (M2):
1.6
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Electronics Architecture /
SIRSEC
Système d’Information
Reparti Sécuritaire
Driverless railways transport systems exhibit the growing need for information exchange
which increases with every new generation of systems. The need of information
exchange has to be conciliated with the severe safety constraints imposed on these
systems. Under the pressure of these constraints, system developers use almost
uniquely proprietary ad hoc solutions which are reputated to be more easily certifiable
against stakeholders' requirements than the solutions based on open standards. It is
proved that the cost of acquisition and maintenance of open system is in general lower
than the cost of proprietary solutions. SIRSEC project proposes through the development
of Design Patterns a methodological and technological basis which allows to use open
solutions but preserve the possibility of evaluation of safety with relative ease.
SIRSEC project objective is to develop process, technologies and tools for the safety of
information exhange. The safety level of these exchanges and services must be compatible with the SIL (Safety Integrated Level) of applications using these informations.
◗ The project aims to define an architectural platform for data exchange for shared applications defined from SIL0 to SIL4.
◗ The major constraint for the envisaged applications consists in the maintain of safety
characteristics without sacrifying operational performance and diversity of implementation environments. The proposed solution is based on the safety featured middleware platform.
ON GOING
PROJECT
CONTACT
Lionel SEGUY
ALSTOM TRANSPORT
+33 (0)4 72 81 52 75
lionel.seguy
@transport.alstom.com
PARTNERS
Large companies:
ALSTOM TRANSPORT,
SERMA INGENIERIE, THALES
SMEs:
GEENSOFT
CEA, INRETS, IRIT
◗ The industrial context of the project takes into account several constraints unachieved
by todays technologies used in the railway applications. These constraints put into
conflict two main factors which determine application possession costs: the cost of
production and the cost of commissionning and maintenance of the solution. In clear
terms, systems with high level of dependability which should be proved and certified
use almost exclusively proprietary solutions strongly oriented towards application.
The major commercial objective for the consortium members is the access to the
market of solutions of high level of dependability. This will be achieved in the case of
evolution of currently proposed products towards the incorporation of open standards
for distributed safety critical applications.
The major constraint for the envisaged applications consists in the maintain of safety
characteristics without sacrifying operational performance and diversity of implementation
environments. The proposed solution is based on the safety featured design patterns of
different middleware platforms.
PROJECT DATA
Coordinator:
ALSTOM TRANSPORT
Call:
FUI7
Start date:
September 2009
Duration:
36 months
Global budget (M2):
4.6
Funding (M2):
1.9
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SPEEDCAM
Speed limit determination
using camera and maps
The aim of the project is the development of a multisensory fusion system combining
embedded frontal vision system and a Geographic Information System for the
determination of the current speed limit. This so-called "Pre-set ACC" will be built on
real demonstrators (prototype vehicles) belonging to industrial partners.
ON GOING
PROJECT
CONTACT
Fawzi NASHASHIBI
ARMINES
+33 (0)1 40 51 92 31
Fawzi.Nashashibi@
mines-paristech.fr
◗ Design and development of a single embedded camera vision
system
◗ Detection/recognition in all circumstances of all speed limit
sign boards and supplementary signs
◗ Development of a new multisensor data fusion algorithm
combining vision and GIS providing the speed limit and its associated confidence index
◗ Production of "Bench tests" and number of relevant databases
PARTNERS
Large companies:
DAIMLER, VALEO
ARMINES - HOCHSCHULE
AALEN
◗ Integration of the functionality in an equipped vehicle
◗ Realization of a new ADAS system
PROJECT DATA
Coordinator:
ARMINES
◗ Scientific and technical repercussions:
• Development of new real time techniques for traffic signs recognition in all conditions;
• Same approaches could be exploited for other traffic beacons;
• Generic fusion approach: could be used in other driving assistance systems.
Co-label:
MOV'EO
Call:
ANR
◗ Societal and environmental impacts:
• Accident reduction: new driving aids;
• Less traffic congestion;
• Pollution reduction;
• Enhance transport efficiency;
• Stress reduction;
• Less speeding tickets due to inattent.
Start date:
October 2009
Duration:
36 months
Global budget (M2):
3.6
Funding (M2):
0.7
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Dependability of
monitoring systems
SYSPEO
SYStem Proof Extended Objective
Syspeo objective is to extend the usage of formal methods for the development of
mechatronic systems in the automotive industry. The ultimate goal is to enhance
products quality with reduced iteration in the development and validation cycle.
The challenge is to deploy formal proof based on system requirements on hybridmodels
mixing discrete and continuous domains.
◗ Formal monitoring of complete mechatronic models executed as black boxes.
◗ Capability to use formal proof of system requirements on complete mechatronic sys-
COMPLETED
PROJECT
CONTACT
Arnaud BALMITGERE
BWI France
+33 (0)1 49 90 42 56
[email protected]
tems models.
◗ Generation of scenarios for embedded software validation corresponding to discrete
model.
PARTNERS
Large companies:
BWI FRANCE
◗ Modelling of a controlled chassis systemof a vehicle, using symbolic description tech-
SMEs:
WOW
niques of complex multibody systems, leading to a differential equations system representation.
◗ Specification and implementation of algorithms to monitor simulations of models
CEA-LIST, UCL
with respect to a formalized set of system safety properties.
◗ Hybrid (discrete & continuous) model parsing, leading to an approximated set of
reachable system states.
◗ Formal proof on parsed hybrid model.
◗ Enrich system validation with automatic generation of scenario.
◗ Formal proof methodology benchmarking, versus real system test bench validation.
PROJECT DATA
Coordinator:
BWI FRANCE
Call:
EUREKA
◗ Publications:
• N.RAPIN, TAP’09 : Symbolic Execution based Model Checking of Open Systems with Unbounded Variables.
◗ Patents:
• « PROCEDE ET SYSTEME PERMETTANT DE GENERER UN DISPOSITIF DE CONTROLE A PARTIR DE COMPORTEMENTS REDOUTES SPECIFIES »
◗ Product:
• ARTiMon (run-time verifier)
Start date:
September 2007
Duration:
30 + 12 months
Global budget (M2):
2.4
Funding (M2):
1.2
◗ Job creation:
•1
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TICTACT
Information system using
an interactive tactile device
“TICTact”
TICTact (Information system using an interactive tactile interface) is part of the program
Vehicles for Land Transports of the works of the PREDIT 4. TICTact fits in the second
thematic axis “Efficiency of the transportation systems and increase in their quality, in
particular within the framework poductivity and service, for pedestrian informations”.
TIC &
VILLE
DURABLE
ON GOING
PROJECT
CONTACT
Patrick ATTARD
RATP/ING/SVM
+33 (0)1 58 16 60 88
[email protected]
◗ The aim of the TICTact project is to conceive a tactile interface with the development
of a tactile language of communication and interaction, intended to offer an interactive and continuous information service.
◗ Current information systems are discontinuous, use different channels in rupture,
and appeal, most often either vision or sense of hearing. These senses, which are
too often requested, can not effectively answer to all expectations and situations
related to mobility.
◗ TICTact will thus reduce the cognitive load and transmit guidance informations to any
person in a situation of mobility by stimuli that will exploit the cutaneous sensitivity. This
interface will be bidirectional, non-intrusive, lightweight, portable, personal and customizable. After the analysis of the future users' needs, the contribution of “Virtual Reality” will help to test and validate partially the interface design, especially, the location on
the body and the optimal position of the TICTact interface
and to study its interactions.
The mechanical realization
of TICTact could be done
through the use of new technologies of actuation and with
progress of miniaturization.
Its connection with ambient
information and communication systems will thus offer a
great choice of services to
customers.
The diagrams below shows the
chain of informations of the
TICTact project and the contribution of each partner to the
various stages of its development.
Large companies:
RATP
SMEs:
CAMINEO, GOOBIE
ARMINES, CEA-LIST,
UNIVERSITÉ PARIS 8 (THIM)
PROJECT DATA
Coordinator:
RATP
Call:
ANR
Start date:
November 2010
Duration:
32 months
Global budget (M2):
2.3
Funding (M2):
1.1
The TICTact project, now under development, is organized around eight working
packages. The first stage consists in analyzing the users’ needs in order to feed the
research of solutions and interface and interaction concepts. The second phase will
help to define specifications to study and realize the tactile terminal of communication.
The functionalities which the interface will have to carry will be defined under this stage.
These functionalities will then come to support a stage in which will be realized the
application that will establish the link between the information systems retained and the
tactile interface. The intermediate paste-ups of the project as well as the technical
developments will be then evaluated.
The project will be concluded by tests on site and a phase of consolidation of the tactile
interface prototype for a possible industrialization.
44
PARTNERS
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Free & Open Source Software
Working Group
Stefane FERMIGIER,
WG President
[email protected]
NUXEO
46
"Our Working Group was founded around a unique vision: to bring
together SMEs, major companies, universities and research
centers around R&D projects and business activities, to foster
cooperation, innovation and value creation, within the framework
of the open source values. With already more than 90 members,
this ecosystem represents a huge opportunity for the Free &
Open Source Software community (FOSS)."
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FREE & OPEN SOURCE SOFTWARE, A FAST GROWING INDUSTRY
The software and IT services industry is experiencing a
period of tremendous change, with a 40 % compound
annual growth rate over the next years for open sourcerelated turnover and tens of new businesses created
every year in the Paris Region alone. It has also been
predicted by analysts such as Gartner that in 2012, if not
before, 80 % of all software produced worldwide will
include significant open source components.
FREE & OPEN SOURCE SOFTWARE WORKING GROUP
WITHIN SYSTEMATIC
◗ Partners: 90 including :
◗ 56 SMEs
◗ Total Investment: 59 M2
The goals of the FOSS (Free & Open Source Software)
Working Group are:
◗ PLATFORM
◗ Development Tools
◗ Middleware
◗ INFRASTRUCTURE
◗ Distributed
◗ Embedded
◗ Green IT
◗ to federate all the actors in the Paris Region, promoting a healthy and prosperous industry for open
source in partnership with the world of education and
research
◗ to promote the development of innovative software
which will take advantage of scientific advances in the
Paris Region.
The Free & Open Source Working Group is positioned on
seven technology areas, called “Development Axes”:
◗ APPLICATIONS
◗ Web 2.0 / 3.0
◗ Enterprise Applications
Roberto DI COSMO,
Laurent SEGUIN,
WG Vice-President
[email protected]
UNIVERSITE PARIS 7 DENIS DIDEROT
[email protected]
SYSTEMATIC
ALCATEL-LUCENT
CAP GEMINI
CS
INRIA SACLAY
OW2 CONSORTIUM
QUALIXO / HENIX
RYDEKA
UNIVERSITE PIERRE ET MARIE CURIE PARIS 6
WALLIX GROUPE IF RESEARCH
Philippe CARRE
Jean-François CAENEN
Gilles LEHMANN
Patrick MOREAU
Jean-Pierre LAISNÉ
Philippe VAILLERGUES
Francois BANCILHON
Amal EL FALLAH SEGHROUCHNI
Jean-Noël DE GALZAIN
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Free & Open Source Software WG
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Distributed
AEOLUS
ON GOING
PROJECT
The main objective of the Aeolus project is to tackle the scientific problems that need
to be solved in order to bridge the gap between Infrastructure as a Service and Platform
as a Service solutions, by developing theory and tools to automate deployment,
reconfiguration, and upgrades of variable sized, non-homogeneous machine pools. We
expect that the results of this research work will allow to efficiently deploy, maintain,
and administer, in a cost-effective way, the dynamically changing distributed
architectures which are at the heart of Cloud services.
CONTACT
PARTNERS
The technological steps forward that Aeolus will make are threefold:
◗ Design an abstract model of a Cloud, that encompasses the software packages installed on every (virtual) machine, as well as the dynamic dependencies among software, machines, and services.
◗ Design a powerful high-level reconfiguration request language allowing to express
sophisticated reconfiguration requests of (virtual) machine pools.
Roberto DI COSMO
UNIVERSITÉ PARIS DIDEROT
[email protected]
SMEs:
MANDRIVA
INRIA, CNRS, UNIVERSITÉ
NICE SOPHIA ANTIPOLIS,
◗ Develop specialised solver algorithms to efficiently satisfy reconfiguration requests by
translating them into low-level reconfiguration plans, which are close to the actions
implemented by common software deployment toolkits.
To each of the above technological
steps forward correspond precise
scientific challenges that will be
addressed in the project. For example, concurrency theory, and in particular process calculi, provides
natural models for the description
of the interdependencies between
services, packages and machines
that will need to be accounted for in
the cloud description model; and
the planning problems that are
foreseen pose novel challenges to
optimization.
PROJECT DATA
Coordinator:
Co-label:
PEGASE, SCS
Call:
ANR
Start date:
January 2010
Duration:
40 months
Global budget (M2):
2.9
STATUS - MAIN
PROJECT OUTCOMES
Funding (M2):
0.9
Aeolus will build the tools and
develop the scientific knowledge
necessary to enable simple, costeffective deployment, management,
and administration of the Open
Source software infrastructure
which is at the core of tomorrow's
complex and dynamic software
architectures, thus unleashing the
potential for innovation of SMEs and
service providers. More generally, end-users and service providers will be able to use
tools based on the outcome of this project to significantly reduce the cost and
development time of the flexible, on demand applications that are a key factor of
innovation in the next decade.
48
Compatible One
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Multimedia Collaborative
Publishing Chains
◗ The objective of the C2M project is the collaborative creation of structured multimedia
documents. It aims at integrating XML publishing chains, enterprise content management systems (ECM) and multimedia creation tools.
◗ C2M completes the Scenari project (ANR platform). In order to manage the collaborative dimensions, the strategy is to extend Scenari's functions (planning, versioning, communication, ...); to integrate it with ECM (Open Source); and to add
possibilities of “aesthetically-oriented” publications (between totally automated and
totally manual ones).
ON GOING
PROJECT
CONTACT
Stéphane CROZAT
UTC
+33 (0)3 44 23 49 32
[email protected]
◗ INA offers an ideal case, because of its audiovisual problem and its enterprise characteristics. The results of the project are also expected to be available for many other
applications (for instance enterprise documentation).
◗ C2M is at the intersection of two documentary evolutions: structured documents and
collaborative production.
◗ ECM systems propose powerful collaboration management, but they are mainly de-
PARTNERS
Large companies:
INA
SMEs:
AMEXIO, KELIS
CNRS, INRIA, UTC
signed to manage non structured documents, based on the hypothesis “1 document
= 1 file”. Publishing chains allows structured document editing, reuse and polymorphism. One fundamental corollary is that a document is always a dynamic reconstruction from several fragments linked together: “1 document = a network of files”.
◗ The first problematic of the project is to reinvent technical and ergonomical behaviour of ECM functions stating on this new paradigm, taking into account that the
structured documents we have to managed are expected to be multimedia.
◗ The document fragmentation has many consequences on collaboration management
(transactions processes, modification propagations, versioning, document comparison, ...) when each fragment belongs to several documents and is modified by several
authors.
◗ Other needs rise from integration of collaborative and structured worlds: structured editing available for occasional reviewers, semi-automatic and high quality publication, ...
PROJECT DATA
Coordinator:
UTC
Co-label:
CAP DIGITAL
Call:
ANR
Start date:
September 2009
Duration:
24 months
◗ Research work: document genealogy (history, comparison), collaborative writing
Global budget (M2):
1.6
models (transaction, editing interfaces), multimedia publication (automatic publication control)
◗ Generic Framework: Scenari 4 integrated with customized ECM (Nuxeo, Alfresco,
Funding (M2):
0.8
etc.)
◗ Demonstration Software: INA specific applications (augmented webradio, audiovisual archives republishing, ...) and other applications (courses, documentation, communities , etc.)
www.utc.fr/ics/c2m
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Development tools
COnvergence de la Communauté Libre
des Infrastructures Collaboratives
Ouvertes
◗ The Coclico project aims at reinforcing software forges communities by structuring
an open source ecosystem, which gather a critical amount of stakeholders in France.
The dynamics of Forge platforms development is now a key issue in addressing the
challenges which businesses/companies are facing as far as collaborative and distributed development is concerned.
◗ The project will focus on several areas: information exchange between the forges,
ON GOING
PROJECT
CONTACT
Christian REMY
BULL
+33 (0)1 30 80 33 50
[email protected]
data confidentiality and integrity, support for software engineering methods, open integration model, etc... All results will be available in open source and contributed into
the FusionForge community so as to maximize the international impact of the work.
PARTNERS
The main technological issues
addressed by the project are the
following:
Large companies:
BULL, ORANGE LABS, XEROX
SMEs:
BEARSTECH, CELI FRANCE,
OBJET DIRECT
◗ Multiple identities: user identi-
INRIA,TELECOM SUD PARIS
ties sharing through remote
services and between different
forges
◗ Semantic models: to structure
the information according to
the software engineering concepts even for unstructed or
semi-structured data
PROJECT DATA
◗ Support of software engineering methodologies and processes: provide tools integrated into
the forge to ease the use of methodologies like Scrum and allow requirements traceability
◗ Data lock-in: it is currently difficult for a project hosted on a specific forge to be migrated to another one without unacceptable data loss or service unavailability. The
goal is to be able to share data between forges in real-time.
To raise technological barriers related to dynamic forges interoperability, to research
and indexation of distributed data and to synchronization of data in meta-projects distributed between forges, Coclico will start from existing prototypes or technical components implementing research results on semantic models and industrialise them.
Coordinator:
BULL
Co-label:
MINALOGIC
Call:
FUI
Start date:
October 2009
Duration:
24 months
Global budget (M2):
3.2
A project forge, based on FusionForge, is available: http://www.project-coclico.org.
First significant results have been achieved so far in the following areas:
• convergence in the use of some tools (Mailman) and the definition and implementation of user authentication and session management
• definition of an exchange format between forges, based on OSLC (Open Services
for Lifecycle Collaboration) and implementation of projects import and export tools
• implementation of indexation and research tools through projects artefacts, based
on Lucene research engine
• prototype of a Scrum application, interfaced with forge bug-tracker
• definition of a data model for requirements traceability and implementation of the
services, based on OSLC-RM
Funding (M2):
1.2
Active ecosystem dynamisation through participation to Open Source events (RMLL, OpenWorld Forum, Solutions Linux, ...), contacts and exploitation of other projects results
(Helios, Forgeplucker, Qualipso) and animation of communities (Planetforge, FusionForge).
50
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Web 2.0 and 3.0
Coordination, dynamicity
and efficiency for XML
Our research work seeks to push the fronteer of XML technology innovation in three
interconnected directions.
◗ First, we propose to study languages, algorithms, and develop prototypes for efficient
and expressive XML processing, in particular advancing towards massively distributed XML repositories.
◗ Second, we consider models for describing, controlling, and reacting to the dynamic
behavior of XML corporas and XML schemas with time.
ON GOING
PROJECT
CONTACT
Ioana MANOLESCU
INRIA Saclay
Île-de-France
+33 (0)1 72 92 59 20
[email protected]
◗ Third, we propose theories, models and prototypes for composing XML programs for
richer interactions, and XML schemas into rich, expressive, yet formally grounded
type descriptions.
PARTNERS
SMEs:
INNOVIMAX SARL
CODEX aims at innovating both in the fundamental area of XML languages and types
and in the development of multiple technical building blocks (efficient algorithms) as
well as platforms integrating these building blocks. In particular, significant effort is devoted to the constructions of large-scale distributed content management platforms.
Some of the innovative reults expected from this project are:
INRIA GRENOBLE, INRIA LILLE,
INRIA SACLAY (LEO), LRI, PPS,
UNIVERSITE DE BLOIS-TOURS,
UNIVERSITE DE MARSEILLE,
UNIVERSITE DE PARIS 1
LA SORBONNE,
◗ Efficient XML query and update
algorithms based on XML types,
parallelism, pipeline evaluation,
and memory footprint reduction
◗ Models, algorithms and platforms for efficient management
of RDF and XML data in large
peer-to-peer networks
PROJECT DATA
◗ Contract theory for the dynamic
Coordinator:
INRIA
composition of Web services
◗ Decentralized, distributed up-
Call:
ANR
date protocols and update reconciliation
Start date:
March 2009
◗ Efficient algorithms and platforms for complex XML processing tasks expressed in the
XProc language.
Duration:
36 months
Global budget (M2):
2.4
Funding (M2):
0.8
Work in CODEX has lead to significant development, testing, and technological innovations.
• First, we have advanced on our distributed Web data sharing system called ViP2P
(http://vip2p.saclay.inria.fr),whose scalability was tested on real-life WAN deployments of hundreds of machines across France, in the Grid5K network. ViP2P supports distributed subscriptions to sources of XML and RDF (Semantic Web) data, as
well as efficient query processing.
• Second, INRIA Lille and the Innovimax start-up have initiated a close collaboration
on the topic of streaming XML processing.
Finally, the project is particularly well-recognized in the international scientific arena, as
witnessed by the numerous prestigious publications (ACM PODS, IEEE ICDE, International
Conference on Extending Database Technologies etc.). For more information, see the
project website: http://codex.saclay.inria.fr
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Middleware
CompatibleOne
ON GOING
PROJECT
CONTACT
The goals of the project are to:
◗ provide entrepreneurs and organisations access to cloud technologies,
◗ remove the constraints of vendor / data lock-in,
◗ give ownership and control of security and quality of service.
Jean-Claude BOURHIS
BULL
+33 (0)1 30 80 74 30
[email protected]
CompatibleOne aims at providing cloudware (set of pre-integrated components and
tools) that can evolve rapidly and be adapted according to needs:
◗ IaaS:
• Manage infrastructures and provide a global abstraction of ressources,
• Standardized interface unifying divers models used by IaaS platforms (Amazon EC2,
SunCloud API, …).
◗ PaaS:
• Multi-tenant platform (deployment, application execution),
• Abstraction layer allowing its utilization through high-level services such as relational and post-relational storage, synchronous and asynchronous communication,
◗ QoS and Security :
• Security and Management framework including tools for monitoring, billing, authentication.
PARTNERS
Large companies:
BULL
SMEs:
ACTIVEEON, CITYPASSENGER,
ENOVANCE, EUREVA, LOST
MANDRIVA, NEXEDI, NUXEO,
OASIS, OW2 CONSORTIUM
(OPEN- SOURCE SOFTWARE
COMMUNITY), PROLOGUE,
XWIKI,
INRIA, INSTITUT TELECOM
CompatibleOne will develop a
meta-model for complex cloud
architecture abstraction to provide a canonical standard for
cloud builders and integrators.
The meta-model will include
aspects for security, QoS
(Quality of Service) and a management framework facilitating the following tools:
PROJECT DATA
Coordinator:
BULL
Co-label:
SCS
◗ Administration tools (resource management, monitoring and metering).
Call:
FUI 10
◗ Billing tools, as well as authentication, specification and
contract enforcement for the
QoS.
Start date:
November 2010
Duration:
24 months
Global budget (M2):
10.7
The main CompatibleOne project deliverables are:
Funding (M2):
5.3
◗ a meta-model, to abstract the underlying cloud architecture complexityf,
◗ an open source Cloudware as a reference implementation,
◗ 6 demonstrators to verify the quality of the meta-model and Cloudware.
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Embedded
Couverture
COMPLETED
PROJECT
Along with a growing worldwide influence of Free Software, computer programs are being
increasingly used for safety-critical purposes such as in aircraft or train control systems.
In this context, the Couverture project was motivated by three driving goals:
• Develop innovative coverage analysis tools to help the certification of safety-critical
applications, in accordance with official guidelines such as the DO-178B standard,
• Introduce the notion of Free Certification Artifact, open material allowing qualification of Free Software for use in DO-178B like certifications,
CONTACT
Olivier HAINQUE
ADACORE
+33 (0)1 49 70 67 16
[email protected]
• More generally, encourage synergy between Free Software projects and Industry on
certification issues.
All those principles are now promoted on a much wider scale through the Open-DO initiative (www.open-do.org).
PARTNERS
SMEs:
ADACORE, OPEN WIDE
◗ Free Software technology allowing non-intrusive object and structural coverage analysis
for safety critical applications, up the strictest
level of DO178-B
TELECOM PARISTECH,
UNIVERSITÉ PIERRE ET MARIE
CURIE (LIP6),
◗ Extensions to the Qemu simulation environment, widening the range of industrial use
possibilities
◗ Modular framework relying on virtualization to
accommodate Agile development processes
◗ Formal grounds, with object/source coverage properties elaborated and proven as
PROJECT DATA
Coordinator:
ADACORE
Call:
FUI 5
part of the project formalization effort
MAJOR PROJECTS OUTCOMES
Start date:
September 2008
Duration:
24 months
◗ Publications:
• "Object and Source Coverage for Critical Applications with the Couverture Open
Analysis Framework", proceedings of the 5th "Embedded Real-Time Software and
Systems" (ERTS²) international congress, may 2010
• "Non Intrusive Structural Coverage for Objective Caml", proceedings of the 5th
Workshop on Bytecode Semantics, Verification, Analysis and Transformation (Bytecode), march 2010
• "Technical Report on OBC/MCDC properties", part of the Couverture project documentation, v1 june 2010, work in progress for conference or journal publication
Global budget (M2):
2.2
Funding (M2):
1
LAMBDA
• OpenDO initiative (www.open-do.org)
• Addition of GNATcoverage and GNATemulator offerings to AdaCore's product lines
for safety critical development
• Development of Qemu based services at OpenWide
◗ Job creation:
• 2 permanent and 7 temporary positions opened during project timeframe
• Sustained activity for 10 persons now, to support further developments, marketing,
sales and maintenance activities
Ongoing industrial qualification for operational use by an avionic software development
team, producing safety critical components to be DO178-B certified at level A. The team
is setup to follow very dynamic Agile principles and resort to modern technologies for
this kind of software (Ada 2005, object oriented constructs)
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Web 2.0 and 3.0
Data Publica
COMPLETED
PROJECT
The goal of Data Publica is to develop and populate the most complete, richest and best
equipped directory of PSI (Public Sector Information) data.
◗ Complete : the objective is to cover all the existing PSI data in France
◗ Richest : the system provides data with its associated meta-data (structure, date, editor, format etc.)
◗ Best equipped : the system includes a search engine to access the data based on
CONTACT
François BANCILHON
DATA PUBLICA
francois.bancilhon
@data-publica.com
both data and meta-data
At this stage, we have gathered data from 180 public editors, consisting of 1850 data
sets, representing 4,500 publications. This represents the largest French PSI directory,
and the third national PSI directory in the world after the US and the UK.
As opposed to its US and UK competitors, Data Publica indexes data sets on both data
and meta data, thus allowing to search not only on meta data but also on content.
It provides classification of data sets by tags and categories
It provides complete statistics on Public Sector data sets,
It automatically supports updates to the data sets, based on their frequency of change
PARTNERS
SMEs:
ARAOK, NEXEDI, TALEND,
DATA PUBLICA
PROJECT DATA
Coordinator:
ARAOK
Call:
WEB 2.0
Start date:
January 2010
Duration:
12 months
Global budget (M2):
0.4
Funding (M2):
0.2
We have developed the first French directory of Public Sector Information. It is also by
size the third largest PSI Directory in the world after data.gov and data.gov.uk. Process
consists in identifying existing public data sets, importing them in the Data Publica
warehouse, extracting the meta-data, indexing both data and meta-data, thus providing a search engine to search for public data sets based on both meta-data and content.
◗ New product:
The first French directory of Public Sector Information. It is also by size the third
largest PSI Directory in the world after data.gov and data.gov.uk.
◗ Job creation: 5
The company Data Publica was created in November 2010 to leverage the technology
developed in the project. We plan to be 10 by the end of 2011. The company plans to
become the first generalist data marketplace for electronic data in France.
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Green-IT
The ecological desktop
ON GOING
PROJECT
◗ Optimal energy use is one of the key achievements we must all reach in the coming
years. We intend to improve the energy use of computers by optimizing the time during which they are switched on. For existing desktop computers studies show that
the possible economy is around 35 €/year.
◗ Deskolo will provide an infrastructure to:
• Gather the presence or absence of users.
• Suspend and resume a computer execution.
• Measure the energy used and provide hints on possible economies.
• Provide a central web sites for gathering statistics for all users allowing to compare
CONTACT
WALLIX
+33 (0)1 53 42 12 90
[email protected]
energy used to similar sites / organisation.
PARTNERS
SMEs:
MANDRIVA, WALLIX
◗ Integrating asset management /
CEA LIST
ecological assessment.
◗ Technology for measuring the
energy.
◗ Sleep / Awake centralized multioperating systems technology.
PROJECT DATA
◗ Integration with multiple systems access management.
Coordinator:
WALLIX
◗ Integration of many disparate
technologies to obtain a profile
"low consumption" for distribution.
Call:
FEDER1
◗ Printing: the problem of integration in a multi-os with many types of printers.
◗ Bundle of Open Source software dedicated to the measurement of power and paper
consumption and their optimization.
Start date:
April 2009
Duration:
24 + 6 months
Global budget (M2):
1.2
Funding (M2):
0.6
◗ Leading solution in the IT management:
• For local and national authorities which are aware of ecological stakes.
• For companies aiming to reduce their energy costs.
◗ Redefine the market of the IT management and of the network supervising in a Green
IT perspective.
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Development tools
DORM
Derived Objects Repository Manager
ON GOING
PROJECT
Design and implementation of a management system for derived objects, derived from
the software building process (binaries, libraries, documentation, etc). The DORM
system manages the objects' inter-dependencies while being technology and languageagnostic (Ada/C/C++/Java/OCaml/Flex, etc).
CONTACT
Pierre QUEINNEC
ZENIKA
+33 (0)1 45 26 19 15
[email protected]
◗ The DORM system needs to scale to hundreds of terabytes of data and to tens of thousands of developers concurrently accessing the system, as it is classic in our clients
environments.
◗ It is needed that the dependency graphs need to scale well in a technology-agnostic
way, and the solving needs to
be fast while retaining complete accuracy.
PARTNERS
SMEs:
ZENIKA, NUXEO
INRIA SACLAY,
UNIVERSITÉ PARIS DIDEROT LABORATOIRE PPS,
◗ Last but not least, the visualizations need to be both scalable and accessible, as the
primary users will be industrial
integration managers that need
to be able to absorb large
amounts of data in a simple
and summarized way.
PROJECT DATA
◗ The resulting repository will be fully open-source and used by major industrial clients,
and its use covered by support contracts.
◗ The DORM repository manager fills a huge gap by industrializing the last software
delivery step and also by enabling a real control on the client's full software portfolio, the different mix of licences used or the stableness of the different libraries used
as a whole.
Coordinator:
ZENIKA
Call:
FEDER 4
Start date:
November 2010
Duration:
24 months
Global budget (M2):
0.9
Funding (M2):
0.5
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Middleware
EASYSOA
EasySOA
The EasySOA project aims at making the Service Oriented Architecture (SOA) approach
easier.
Today, designing an information system's SOA solution is a rare skill ; required technologies are complex, and too often hide process and organisational aspects. EasySOA
builds on the Web, its technologies and their audience, in order to open up, to nontechnical and business users, existing applications that are available as services. Their
interactions with existing IT infrastructure are enabled but also controlled by a proxy
layer which ensures that information system integrity or performance won't be impacted. Finally, open and collaborative tools will be made for the whole SOA development process.
Results will be Open Sourced in order to foster an ecosystem of compatible middleware, tools and platforms.
ON GOING
PROJECT
CONTACT
Marc DUTOO
OPEN WIDE
+33 (0)6 08 77 93 29
[email protected]
PARTNERS
Large companies:
BULL
SMEs:
NUXEO, OPEN WIDE, TALEND
Main innovations are :
INRIA
◗ "EasySOA Light", a light, tactical approach of SOA that is compatible with and complementary to "traditional" SOA middleware components, thanks to INRIA's OW2
FraSCati
◗ tying together the actors of the SOA process in an information system - business
users, architects and developer, IT staff - in "EasySOA Core", a Nuxeo DM-powered
social and collaborative solution
◗ managing a light, decentralized model of known and discovered services, inspired by
INRIA Galaxy and Eclipse SOA work, opened up through APIs like CMIS and Talend's ETL
◗ providing architects with a simple, fully packaged SOA framework
◗ and branching out to an "à la carte" Open Source SOA and BPM solution that builds
on top of widely acknowledged, mature and robust Open Source technologies that
are supported by EasySOA partners, like Apache CXF & Camel, INRIA / OW2 Frascati,
Nuxeo DM, Talend Data Integration, Bull / OW2 Jasmine,
Eclipse SOA tooling
◗ unique features related to devel-
PROJECT DATA
Coordinator:
OPEN WIDE
Call:
FUI10
Start date:
November 2010
Duration:
24 months
Global budget (M2):
4.0
opment ("SOA sandbox"), continuous integration, acceptance
testing, business processes and
monitoring
Funding (M2):
1.9
◗ demonstrators targeting the
COMPATIBLE ONE
Web 2.0 and Cloud fields
◗ Synergies with existing Nuxeo features and architectures of all partners' solutions
have appeared. Talend has released the first version of its ESB, and Nuxeo has contributed its content management platform to Eclipse.
◗ Proof of concept platforms of SOA model management and of the service proxy layer
are available on http://github.com/organizations/easysoa . Other developments are
made available in their respective Open Source communities : OW2, Eclipse, Nuxeo,
Talend.
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Development tools
Harmoniser l'Environnement Logiciel
et Industrialiser avec l'Open Source
The HELIOS project (http://heliosplatform.sourceforge.net/) aims at bringing a solution to
industrialization problems through an Open Source ALM (Application Lifecycle
Management) platform by using a continuous integration approach. To match with the
many different process in an Open Source environment (from pure software projects to
heterogeneous projects including products from vendors as well as Open Source
dependencies), it is important for the HELIOS platformto be able to adapt to any quality
process. As a result the HELIOS platform has a non-intrusive and “best of breed” approach.
HELIOS allow the users to select the tools adapted to their needs and processes.
The HELIOS platform, in order to create integrated industrialization dashboards with a
broad functional field, combines Business Intelligence (BI) technics and continuous integration over a semantic data warehouse.
COMPLETED
PROJECT
CONTACT
Laurent LAUDINET
THALES SERVICES
[email protected]
PARTNERS
Large companies:
ALCATEL-LUCENT,
THALES SERVICES
SMEs:
ARTENUM, KALIS, MANDRIVA
INSTITUT TELECOM
ALCATEL-LUCENT: Alcatel-Lucent has an internal forge named (ACOS). It is very useful for the
successful sharing of software development within Alcatel-Lucent. Nonetheless, despite the
use of a very rich forge like ACOS, it does not provide all the functionalities required in an industrial environment. The aim of Alcatel-Lucent is to use HELIOS in order to provide solutions
related to the following concerns:
• System integration consideration
• Upstream phases (specification, design) consideration
• Integration of test in the forge
• Handling of a legacy application by a new team
• Acceptance of the reuse/refactoring of an application
• Refactoring of an application
• Agility
The goal Alcatel-Lucent is aiming at is reusing HELIOS to fill the lacks listed above. The outcomes for Alcatel-Lucent are mainly internal at first (even if the system allows external partners
on the internal forge of Alcatel-Lucent). This use of the project results is major as it will allow
software valuation to have an industrial reference site.
KALIS: Regarding the HELIOS outcome valuation, KALIS is considering multiple scenarios:
• Conquest of new services markets through the raise of collaborators productivity thanks to the
HELIOS tools. The HELIOS tools will also be a KALIS know-how showcase in its expertise
domains.
• Valuation through the creation of an on-line service for documentation extraction and source
code quality analysis (in a SaaS mode). As an example, a KALIS partner is already providing a
related service of this type. The analysis of a project is priced at 10,000 € per project and per
analysis.
MANDRIVA: The exploitation by Mandriva the works led within the Helios project articulate
around two axes:
• the creation in 2011 of a Mandriva ALM server product destined to companies willing to develop,
test and analyze Linux distributions. This product will integrate components developed in the
HELIOS project that will provide targeted companies with increased productivity, traceability and
quality in their software production, qualification and exploitation processes.
• The heterogeneous documentation management portal Doc4 for the whole Mandriva products:
while providing a solution to the disparity of information related to open source software, this
portal will allow Mandriva to progress in its business market share as well as increasing Mandriva
collaborators productivity.
THALES SERVICES: HELIOS project direct contribution to THALES tool suite is keyed to some
components, developed within the HELIOS project, that cover functional domains little or not
covered by the current offer (for example the reverse documentation, legal analysis tools).
HELIOS indirect contributions are multiple. At first the HELIOS project has to facilitate the adoption of open source components inside the group. The second is the impulse given by the HELIOS
project for the creation of an open source community around industrialization. Such a community
can, if it turns out viable, initiate a virtuous circle of improvement for the quality of the available
tools in the field of industrialization.
58
PROJECT DATA
Coordinator:
THALES SERVICES
Call:
FUI5
Start date:
September 2008
Duration:
24 months
Global budget (M2):
3.7
Funding (M2):
1
SQUALE
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Software engineering /
Development tools
Project also supported by Systems Design and Development Tools WG.
HI-LITE
High Integrity Lint Integrated
with Testing and Execution
Hi-Lite's goal is to promote the use of formal methods in developing high-integrity
software. It loosely integrates formal proofs with testing and static analysis, thus
allowing projects to combine different techniques around a common expression of
properties and constraints.
Hi-Lite's focus on modularity allows scaling to large software systems and encourages
early adoption. By relying only on sound static analyses, Hi-Lite qualifies for being a
tool of choice for industrial users needing to apply the Formal Methods Supplement of
the upcoming DO-178C standard.
Hi-Lite is completely based on free software. The project is structured as two different
tool-chains for Ada and C based on GNAT/GCC compilers (Ada and C), the CodePeer
static analyzer (Ada), the SPARK verification tool-set (Ada), the Frama-C platform (C)
and the Why platform (Multi-language), all integrated inside AdaCore IDEs.
ON GOING
PROJECT
CONTACT
Arnaud CHARLET
ADACORE
+33 (0)1 49 70 67 16
[email protected]
PARTNERS
Large companies:
ALTRAN, EADS ASTRIUM,
THALES COMMUNICATIONS
◗ By defining a common language of annotation for testing, static analysis and formal
SMEs:
ADACORE
proofs, Hi-Lite will allow industries to switch gradually from an all-testing policy to a
more efficient use of modern assurance methods. Most of this annotation language,
if not all of it, is expected to be included in the next version of the Ada language, Ada
2012, which will make it an international standard.
CEA LIST, INRIA PROVAL
◗ Hi-Lite defines industrial workflows for separate verification which could be as beneficial to critical software development as separate compilation was beneficial to software development in general. Non-experts will be able to apply separate verification
early in the development cycle thanks to the integration of mature existing tools for
Ada and C inside powerful
IDEs, defining many possible user interactions.
◗ Hi-Lite will leverage the
decades of experience of
industrial formal verification with SPARK to define
an extended SPARK programming language and
more powerful SPARK verification tools. Projects will
be able to create verified
software using common
programming abstractions like containers and dynamic polymorphism. Traceability of
verification activities and results will facilitate software certification.
PROJECT DATA
Coordinator:
ADACORE
Call:
FUI9
Start date:
May 2010
Duration:
36 months
Global budget (M2):
3.9
Funding (M2):
1.4
LAMBDA, USINE LOGICIELLE
Hi-Lite will create a set of workflows for critical software verification based on tools. It
is expected that various products will be defined and commercialized based on these
workflows by the owners of the base tools:
AdaCore, Altran, CEA and INRIA. The large scale experiments performed by industrial
partners Altran, Astrium and Thales will give them a strong advance in the application
of these workflows in their industrial context.
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Development tools
Project also supported by Systems Design and Development Tools WG.
MAGNUM
Méthodes Algorithmiques de Génération
aléatoire Non Uniforme, Modèles
et applications
The central theme of the MAGNUM project is the elaboration of complex discrete
models that are of broad applicability in several areas of computer science. There are
two major motivations for the development of such models:
◗ first, design and analyse efficient algorithms dedicated to simulation of discrete systems and random generation of combinatorial structures;
◗ second, revisit the area of average-case complexity theory under the angle of realis-
ON GOING
PROJECT
CONTACT
Michèle SORIA
LIP6 UPMC
+33 (0)1 44 27 70 96
[email protected]
tic data models.
The sound mathematical methods developed during the past decades make it possible to
enumerate and quantify parameters of a large variety of uniform combinatorial models.
The MAGNUM project proposes to depart from the uniformity assumption and develop
new classes of models that bear a fair relevance to real-life data while being, at the same
time, still mathematically tractable.
The MAGNUM project presents ambitious goals of research on
discrete models. The aim is to investigate the structural properties of fundamental complex objects that recurrently appear in a variety of application contexts across several areas of
computer science. This, in order to design algorithms for simulating discrete systems and sampling
combinatorial structures, and eventually
establish on a firm
basis probabilistic and
complexity properties
of corresponding algorithms. We plan to develop an integrated set
of methods dedicated
to the elucidation of
structural and probabilistic properties of
non-uniform
structures, as well as develop a toolbox of
algorithms targetted at random generation and simulation in such contexts. This project
is built on the combination of complementary approaches, including combinatorial, probabilistic, analytic and dynamic frameworks. The originality of our project is also to develop software for testing and simulation, in order to help understanding and analysing
the models, as well as generate random structures modeling real-word objects, such as
biological structures or complex networks.
The collaboration between the partners will lead to significant publications in top level
academic journals, international conferences and workshops in fundamental Computer
Science. Regarding software, our developments are intended for being integrated in
public libraries, such as SAGE. Finally, we hope to build a unique center of expertise in
all aspects of the generation of non-uniform objects, as well as applications in
combinatorics, bio-informatics and interaction graphs.
60
PARTNERS
IGM (UNIVERSITÉ PARIS ESTMARNE LA VALLÉE), INRIA
(PARIS-ROCQUENCOURT),
LIAFA (UNIVERSITÉ PARIS 7DENIS DIDEROT), LIP6
(UNIVERSITÉ PARIS 6-UPMC),
LIPN (UNIVERSITÉ PARIS13VILLETANEUSE), LIX (ECOLE
POLYTECHNIQUE)
PROJECT DATA
Coordinator:
UPMC-LIP6
Call:
ANR
Start date:
December 2010
Duration:
48 months
Global budget (M2):
5.1
Funding (M2):
0.6
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Distributed
Proof of a Transactional Distributed
Persistent Object Protocol
The NEOPPOD project is a major advance for Open source Cloud Computing and Total
Information Outsoucing (TIO). The goal of the project is to provide a formal proof and an
experimental proof of the NEO protocol. The NEO protocol is a fully distributed and
transactional protocol designed persistent object storage on a Cloud Computing
infrastructure. It can be used to build very large scale object databases. The NEOPOD
project is expecting applications in the area of financial applications, banking
applications and document archival. It is fully open source.
ON GOING
PROJECT
CONTACT
Jean-Paul SMETS
NEXEDI SA
+33 (0)6 29 02 44 25
[email protected]
PARTNERS
◗
◗
◗
◗
NEO Model design based on Petri nets
NEO Cluster setup on a Cloud Computing infrastructure
Model Checking
SMEs:
NEXEDI, PILOT SYSTEMS
ENSMP, LIA, LIP6, LIPN
Experimental scalability testing
PROJECT DATA
Coordinator:
NEXEDI
Start date:
January 2009
Duration:
24 months
Global budget (M2):
1.3
◗
◗
◗
◗
◗
◗
◗
◗
◗
◗
◗
Funding (M2):
0.9
Support of non depreciated ZODB functionalities
Access to the objects (Read/Write)
Access to objects and transactions metadata
Storage nodes redundancy
Data migration script to Neo
Formal validation of the protocol used to elect the primary master node
Unit test coverage of NEO prototype
Load balancing and fault tolerance|recovery
Formal model of the protocol used to implement redundant storage
Implementation of IPv6 support and multi-database in NEO protocol
Actual use of NEOPPOD on ERP5 and Plone environments, for testing purpose
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Web 2.0 and 3.0
Programmation du Web Diffus
ON GOING
PROJECT
The Web is the new ubiquitous platform where applications of tomorrow will be deployed. Though already wide, the Web will become even wider when it connects all the
appliances that surround us.
The PWD project aims at defining a radical new way of thinking Web applications in this
context, relying on the following principles: A Web application is not a federation of dynamic pages but a single, coherent program with multiple projections on servers or
(perhaps roaming) clients. A typical application syndicates multiple data sources and,
at the same time, is driven by multiple event streams.
CONTACT
Manuel SERRANO
INRIA Sophia Antipolis
+33 (0)4 92 38 76 39
[email protected]
This will require appropriate programming languages, whose semantics and compilation process must be studied, and suitable programming environments.
Managing home appliances, organizing multimedia streams are typical targets for these
new Web applications.
Modern Web applications require
some parts of the computation to be
executed server side, some other in
the browser. Most of the time, both
are written using different languages. This makes things complicated and not really suitable for
ubiquitous applications, involving
more than two parts.
INRIA SOPHIA ANTIPOLIS,
UNIVERSITÉ PIERRE ET MARIE
CURIE (LIP6), LABORATOIRE
PREUVES, UNIVERSITÉ PARIS
DIDEROT - PPS
PROJECT DATA
Coordinator:
INRIA SOPHIA ANTIPOLIS
The PWD project aims at providing
uniform platforms for programming
Web applications as a whole, using
high level languages. It relies on software developped by the partners, namely:
• Hop, a dialect of Scheme devoted to Web programming, that focuses on a simpler
integration of client and server side codes;
• Ocsigen, a framework for programming Web applications using the OCaml language, focusing on the expressiveness of concepts and reliability of applications.
Call:
ANR
The project will extend these platforms for ubiquitous Web applications. A part of the
project will be dedicated to theoretical foundations of Web programming: semantics of
Web programming languages and Web interaction. It will also work on the implementation of these techniques (compilation, execution platform ...), on the creation of appropriate developpement environments, and some applications, from home automation
to multiplayer games.
Global budget (M2):
1.8
◗ Hop and Ocsigen have now achieved a very high level of expressiveness, making possible to write complex client-server Web applications in very few lines of code. We
hope this will make possible the emergence of new kinds of Web applications, mixing in a new way server and client side behaviours.
◗ Among the other realizations of the project: a CSS compiler, and an efficient Caml to
JS compiler. We are also working on improving safety of programs in the context of
ubiquitous programs.
62
PARTNERS
Start date:
January 2010
Duration:
48 months
Funding (M2):
0.5
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Embedded
Real Time Embedded Linux
For Industries
RTEL4i project deals about creating an IDE (Integrated Development Environment) in
order to make migration from proprietary hard realtime embedded systems (RTOS for
Real Time Operating System, such as VxWorks® or pSOS®) to Linux environment
easier. Of course same IDE will be used for creating native realtime applications for
Linux.
RTEL4i is not targeted in new RTOS definition. In the opposite, we want to integrate
several free and validated software components such as Linux kernel, GNU toolchain,
Eclipse, Xenomai, RTAI, PREEMPT-RT or Busybox in a unified and certified environment.
Most of existing (free or proprietary) solutions focus on ONE technology (example:
PREEMPT-RT vs Xenomai). RTEL4i IDE will propose a bunch of solutions depending on
project constraints.
COMPLETED
PROJECT
CONTACT
Pierre FICHEUX
OPEN WIDE
+33 (0)1 42 68 28 00
[email protected]
PARTNERS
Large companies:
SAGEM COMMUNICATIONS
◗ Publications:
MANDRIVA, OPEN WIDE
• Kthiri, M.; Kadionik, P.; Lévi, H.; Loukil, H.; Ben Atitallah, A.; Masmoudi, N.; , "A
parallel hardware architecture of deblocking filter in H264/AVC," Electronics and
Telecommunications (ISETC), 2010 9th International Symposium on , vol., no.,
pp.341-344, 11-12 Nov. 2010
doi: 10.1109/ISETC.2010.5679363
• Kthiri, M.; Kadionik, P.; Lévi, H.; Loukil, H.; Ben Atitallah, A.; Masmoudi, N.; , "An
FPGA implementation of motion estimation algorithm for H.264/AVC," I/V Communications and Mobile Network (ISVC), 2010 5th International Symposium on , vol.,
no., pp.1-4, Sept. 30 2010-Oct. 2 2010
doi: 10.1109/ISVC.2010.5654826
• P. Ficheux: Le projet RTEL4I, séminaire « systèmes embarqués » Technifutur Liège
(Belgique), mars 2009
◗ Patents: NONE (open source)
• Quality of service regarding embedded/realtime Linux distribution was greatly im-
proved as creating distribution is much easier thanks to GUI.
• Xenoscope tools is a very useful tool for realtime debug.
• Multiplatform approach is very important too as customer as to learn only ONE in-
terface.
• A new product called "Mandriva build platform" was prototyped. The product is dedicated to Linux distribution production including code analysis, compilation and test.
◗ Job creation: 5
ENSEIRB-MATMECA
PROJECT DATA
Coordinator:
OPEN WIDE
Call:
FUI6
Start date:
December 2008
Duration:
24 months
Global budget (M2):
3.1
Funding (M2):
1.4
• No new activity/com-
pany created.
system
training was greatly
improved at Open
Wide
• Embedded
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Semi-automatic and Collaborative Retrieval
of Information Based on Ontologies
The SCRIBO project's goal is to develop algorithms and collaborative tools for extracting
knowledge from unstructured documents and images. Its distinguishing features rely
on the combination of semantic and statistical approaches for natural language
processing (NLP) and on its focus on the collaborative dimension of the knowledge
extraction process. SCRIBO provides an integrated tool chain forextracting light
ontologies from a corpus of documents, for acquiring knowledge by leveraging
ontologies, and for extracting structures from digitalized documents. The tool chain
will be available as an integrated modular environment building upon standard APIs
and facilitating advanced collaboration by providing graphical widgets for annotating
semantically evolving texts and images. SCRIBO outcomes will be released under an
open-source license.
COMPLETED
PROJECT
CONTACT
Fabio MANCINELLI
XWiki SAS
+33 (0)6 26 83 91 37
[email protected]
PARTNERS
The SCRIBO project provided two major advancements.
• On one hand research-oriented partners have provided and improved their algorithms for automated ontology extraction and semi-automated conversion of text
and image into exploitable knowledge;
• on the other hand technological partners have had the chance to experiment with
these technologies and to integrate them in their products in order to provide a
richer experience for their users.
The outcome is a set of tools and products that have been effectively used to improve
information management processes and that are available for other people as open
source software.
SMEs:
MANDRIVA, NUXEO, PROXEM,
TAGMATICA, XWIKI
CEA-LIST, EPITA-LRDE, INRIA
PROJECT DATA
Coordinator:
XWIKI SAS
◗ Publications:
Call:
FUI5
• "Extracting and Visualizing
Start date:
July 2008
Quotations from News
Wires", LTC 2009
• "Milena : Write Generic
Morphological Algorithms
Once, Run on Many Kinds
of Images", ISMM 2009
• "Word Sense Induction
From Multiple Semantic
Spaces", RANLP 2009
• "A Deep Ontology for
Named Entities", ISA 2011
• "Bridging Mono/.NET and
Java in the SCRIBO Project: TheWay to UIMA.NET",
UIMA French Workshop
2009
Duration:
24+6 months
Global budget (M2):
3.5
Funding (M2):
1.7
• EPITA/LRDE Dematerialisation module for Milena
• Nuxeo Automated Document Categorization and Semantic Entities extensions
• Mandriva Smart Desktop
• Proxem Ubiq E-Reputation extension
• SCRIBO Semantic Workbench
• XWiki Annotation and Semantic analysis framework
◗ Job creation: 6 (5 R&D engineers spread among different partners and 1 postdoc)
64
Large companies:
AFP
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Development tools
Software QUALity Enhancement
COMPLETED
PROJECT
“You can’t control what you can't measure.” - Tom DeMarco ◗ Qualimetry - quality measurement - is the key to better software quality. However, most
efforts towards better software quality face the same obstacles: lack of operational standards, implementation costs, difficulty to estimate a return of investment. The purpose of
the Squale project is to address these issues by offering an open-source qualimetry platform which aims at becoming the “de facto” standard in the field of software quality. To
achieve this goal, Squale provides open quality models (both technical and economical)
and an open-source tool that knows how to aggregate raw quality data into high level factors. The result is a web portal that offers dashboards to monitor quality evolution over
time, and return-of-investment estimations based on the quality results.
CONTACT
Fabrice BELLINGARD
QUALIXO
+33 (0)1 42 31 02 02
[email protected]
PARTNERS
Today, the Squale project has
reached its two main goals. First,
the quality models developed
with the researchers are used by
several companies to assess the
quality of their software developments. Secondly, the Squale
application - that uses those
models to aggregate raw data
into high quality factors – is currently deployed in many companies, the two most important
ones being Air France and PSA
Peugeot-Citroën, where more
than 15 millions of line of code
(Java, C/C++ and Cobol) are regularly analyzed by Squale. While
proven to be operational in an industrial context, Squale and its
quality models are still under development to be sure that they
will constantly meet the customers needs.
Large companies:
AIR FRANCE, PSA
SMEs:
PAQTIGO, QUALIXO
INRIA LILLE,
UNIVERSITE PARIS 8
PROJECT DATA
Coordinator:
QUALIXO
Call:
FUI5
Start date:
June 2008
Duration:
28 months
Global budget (M2):
3.1
◗ Products:
Funding (M2):
1.3
Open-source software quality platform: analyze Java, C/C++ and Cobol applications.
◗ Services:
• Squale on-demand services: on-site installation and maintenance, quality model customization, platform administration;
• Squale customization: support for new langagues, connectors to third-party analysis tools, ...;
• Squale as a Service: quality audits on a Qualixo centralized Squale platform.
◗ Publications:
• 13th Conference on Software Maintenance and Reengineering in Kaiserslautern (Germany), March 2009: "SQUALE: Software QUALity Enhancement";
• 25th IEEE International Conference on Software Maintenance in Edmonton (Canada), September 2009: "The Squale Model - A Practice-based Industrial Quality Model".
◗ Job creation:
• 10 jobs at Qualixo (4 R&D engineers and 6 consultants);
• 2 researchers and 1 engineer at INRIA and Paris 8.
More jobs are expected to be created within the following years.
HELIOS
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Development tools
Software QUality ASsurance
enHancement
SQUASH aims at rationalizing and giving structure to the different activities of functional
testing : test management, test automation, test data management, and administration
and management of software quality service centers.
SQUASH includes four research lines:
◗ Standards and models: to provide software reliability and conformity models to better control testing activities and improve quality software measurement.
ON GOING
PROJECT
CONTACT
Michaël BELKASMI
HENIX
+33 (0)+1 42 31 02 05
[email protected]
◗ Methodology and skills: to set up an educational and methodological knowledge base
for software testing.
◗ Technical tools: to develop open source tools to optimize and simplify testing activities.
◗ Organisation: to provide a tool based methodology to perform testing activities as part
of a software quality service center.
PARTNERS
Large companies:
GENERALI
SMEs:
HENIX, KALIS
In addition to methodology and technical open source tools covering the entire functional
testing process, SQUASH comes with several technological and scientific innovations:
INRIA, PARIS VIII
◗ Objective assessment grid for functionality and reliability factors of the ISO 9126 standard: based on aggregation models of metrics, this grid provide concrete indicators
of the functional quality of a software.
◗ Predictive bug localization model: based on data reported in a pooled repository provide by SQUASH, this model allow to stress source code patterns who have been statistically identified as potential source of bug.
◗ Correlation between application source code and functional test case: this correlation
allow to establish a test plan based on modified source code of a new release, or
measure the parts of the source code covered by the functional test cases.
◗ Method for the measurement of the ROI of the functional testing process: this method
allow to steer the functional testing process according the relation between
cost/charge of testing and risk of residual bug.
PROJECT DATA
Coordinator:
HENIX
Call:
FUI10
Start date:
March 2011
Duration:
24 months
◗ The first releases versions of
Squash tools are planned for late
2011 and will be available on
www.squashtest.org. By then a
demo of the test management
tool is available from May 2011.
◗ Other information is available on
the site.
◗ A user community has growed
from the french Club Qualité Logicielle (www.clubqualitelogicielle.fr).
66
Global budget (M2):
3
Funding (M2):
1.3
HELIOS, SQUALE
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Web 2.0 and 3.0
WIKI3.0
Wiki3.0
ON GOING
PROJECT
The Wiki3.0 project's goal is to create a new generation platform that will provide
collaborative working and interaction based on the capabilities of social networks,
realtime and collaborative edition of documents and that will take advantage of cloud
infrastructures. The final outcome of the project is to deliver to enterprises a solution
that will greatly ehnance their productivity in terms of knowledge exchange and creation
with respect to their core business. The 3.0 generation, as it is envisioned by the
partners of the project, is characterized by the following elements: conceiving and
taking advantage realtime features on the Web, integrating social network and
collaboration functionalities, enriching the content using semantic annotations and
scaling-up the platform by adopting and integrating a cloud infrastructure.
CONTACT
Fabio MANCINELLI
XWIKI
+33 (0)6 26 83 91 37
[email protected]
PARTNERS
SMEs:
MANDRIVA, XWIKI
The major scientific innovation and challenge will be the adaptation and the integration
in the Wiki3.0 platform of realtime editing algorithms that will be at the core of the platform to the collaborative aspects. These algorithms, once put at work, will power the
collaboration and the creation of new business knowledge. The technological innovations will concern the integration of social network features with the collaborative work:
the creation and modification of the content representing the business knowledge will
be carried on in the context of a social environment where collaborators will take part,
possibly in realtime, to its continuos evolution. The challenge and the resulting innovation is to conceive a platform that will merge all these elements in an effective, productive and user-friendly way.
INRIA/LORIA
PROJECT DATA
Coordinator:
XWIKI
Call:
WEB2.0
Start date:
December 2009
Duration:
24 months
Global budget (M2):
1.1
Funding (M2):
0.5
◗ The project is starting its second year and there are already several prototypes that have
been developed and that are integrated in the partner's products.
◗ More information is available on the project's web site at the following address:
https://wiki30.xwikisas.com.
◗ The consortium is working towards meeting the final objectives that consist in building
a complete solution for providing realtime and social oriented features integrated in platform based on collaborative edition.
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Systems Design and
Development Tools Working Group
"The Systems Design and Development Tools Working Group is
based on extensive use of High Performance Computer and is
Gérard POIRIER,
positioned on three technology areas, called “Development
WG President
Axes”:
[email protected]
1) Systems Modelling and simulation
DASSAULT AVIATION
2) Software engineering
3) Data analytics
The activities of our Working Group are essentially transverse to
other Working Groups of the cluster: these tools and systems will
be used in aerospace, energy, services, as well as in auto-motive,
transportation, telecom or security and defence. Our Working
Group has developed 95 innovative projects structured through
our roadmap enhancing innovative applications for technology of
the future. Within our working group, more than
213 partners are gathered working on an “Open innovation” way,
enabling the creation of innovative SME’s: Kalray (Teraops
project), Scilab entreprises (Open GPU project).”
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Page 69
A MAJOR ISSUE: INDUSTRIAL PRODUCTIVITY
The aim is to develop digital tools and method which will
help to design, develop, manufacture and maintain
physical objects or software, embedded systems, better, faster and cheaper than today.
It is remarkable that the leading European players in
this field are located in the Paris region.
THE SYSTEMS DESIGN AND DEVELOPMENT TOOLS WORKING GROUP
WITHIN SYSTEMATIC
◗ R&D financed Projects: 95
◗ 109 SMEs
◗ 9 ETI
◗ 51 Large Companies
◗ Total investment: 438 M2
Among the industrial and technological priorities for
Systems Design and Development Tools Working Group:
◗
◗
◗
◗
◗
Calculation up to PetaFlops and PetaBytes wide (HPC)
The Systems Design and Development Tools Working
Group is based on extensive use of High Performance
Computer and is positioned on three technology areas,
called “Development Axes”:
◗
◗
◗
◗
Life cycle Management tools
◗ Modelling systems simulation
◗ Software engineering
◗ Data analytics
Complex system early design optimization
Product Simulation
Design of software systems
Simulation of production process and factories optimization
Data fusion and Knowledge management
Test, verification, validation and certification tools
Development of synergies between key players
Aerospacevalley and Minalogic (Lambda), ASTech
(Quick_GPS), MOV’EO (O2M), I-Trans and Vehicle du
Futur (AND), Medicen, Images et Reseaux (IRIMI)
◗ Development of software tools for the platform ecodesign of the Clean Sky JT
◗…
Pierre LECA,
Karim AZOUM,
WG Vice-President
[email protected]
CEA
[email protected]
SYSTEMATIC
ADACORE
CS
DISTENE
EADS ASTRIUM
EDF R&D CLAMART
ENGINSOFT
INRIA ROCQUENCOURT
SAMTECH
SCILAB Enterprises
SPRING TECHNOLOGIES
THALES RESEARCH AND TECHNOLOGY
UNIVERSITE DE TECHNOLOGIE DE COMPIEGNE
Cyrille COMAR
Jacques DUYSENS
Laurent ANNE
Denis CLERC
Jean-Yves BERTHOU
Marie-Christine OGHLY
Yves SOREL
Philippe PASQUET
Christian SAGUEZ
Gilles BATTIER
Gérard CRISTAU
Benoit EYNARD
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Systems Design and Development Tools WG
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ADN
Alliance des Données Numériques
ON GOING
PROJECT
Simulation has, today, a crucial place throughout the development cycle of a product
especially in the preliminary phases of design cycle. The need of structuration,
collaboration and coherence of knowledge used in numerical models is essential. It is
in this context that ADN project was born. The cornerstone of differents management
systems for products, knowledge and simulation data, the ADN project will deliver a
generic collaboratif software environment as support of a methodology based on a trade
knowledge in order to share organised dynamic technical data, between various design
models and simulation models of a system.
CONTACT
Patrick GRIMBERG
DPS - DIGITAL PRODUCT
SIMULATION
+33 (0)1 30 08 22 80
[email protected]
PARTNERS
◗ Dynamic management of groups of parameters: aiming at delivering a tool able of
managing thousands of interdependent parameters according to configurations
◗ Definition and management of multiple rendering parameters
◗ Propagation of constraints between parameters: non-bijective rules can be reversed
with no rework by the users of
the ADN tool
Large companies:
EADS, FAURECIA, PSA
SMEs:
DELTACAD, DPS, EIRIS,
SAMTECH, SOYATEC
ARTS, UTBM, UTC
◗ Extraction of knowledge afterwards: setting rules from a database which may include missing
spaces in the design areas
◗ Methodologies related to ADN:
Project deliverable is a tool as
well as a methodology incorporating multiple user processes
PROJECT DATA
Coordinator:
DPS - DIGITAL PRODUCT
SIMULATION
◗ Knowledge lifecycle management
◗ Advanced search engine for computing results in the knowledge
database using data settings:
to avoid multiple computing
when working with case based
reasoning
Co-label:
VEHICULE DU FUTUR,
I-TRANS
Call:
FUI9
The project officially started on March, 8th 2010.
Start date:
March 2010
Duration:
36 months
Global budget (M2):
5.4
Funding (M2):
2.4
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AccesSim (Simulateur
en Réalité Virtuelle pour
l'accessibilité des Bâtiments)
The goal of this project is to propose a Virtual Reality Simulator to work on the
accessibility of buildings and urban environnements.
The tool will allow the user to simulate wheelchair movement around the premises,
and therefore test and demonstrate its accessibility to people with restricted mobility
(people in wheelchairs, senior citizens, pushchairs).
ON GOING
PROJECT
CONTACT
Alain SCHMID
EDF R&D
+33 (0)1 47 65 44 07
[email protected]
◗
◗
◗
◗
A Virtual Reality System to load 3D scenes and run scenariis.
A dynamic platform to interact with à wheelchair.
Integration of accessibility rules.
Realistic physic simulation of the wheelchair.
PARTNERS
Large companies:
CEA, EDF
SMEs:
CEREMH, HAPTION
ARTS, LISV
◗ December 2010: first protoype of AccesSim and test dignostic on the renovation of a
school building.
◗ Avril 2011: first prototype with dynamic platforme for Laval Virtual.
PROJECT DATA
Coordinator:
EDF R&D
Co-label:
MOV’EO
Start date:
Februar 2010
Duration:
36 months
Global budget (M2):
1.9
Funding (M2):
0.8
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ACTIVOPT
ACTIVOPT
ON GOING
PROJECT
Optimization and robust design are now growing concerns in the industry. For many years,
the research has focused on design optimization. Some bricks of software are resulting
fruit of this research and are already used in some companies. But today, software
solutions, key components in designing products, lack interoperability and integration of
these optimization algorithms. Activopt is an opportunity to create and use a community
of developers in this field that will propose and implement solutions to federate research.
This is done preserving the knowledge and expertise on Paris region while enhancing
these skills nationally and internationally.This project is also creating a brick that supports
the use of results of projects already funded under the competitiveness cluster
Systematic, research agencies such as the ANR and association such as TER@TEC.
CONTACT
ENGINSOFT FRANCE
+33 (0)1 41 22 99 30
[email protected]
PARTNERS
Centrale research proposed new operational parameters to classify designs on the Pareto
front. A first solution that consists in substituting Crowding distance by secondary distance
is proposed. A subspace partitioning is also proposed to obtain a well spread Pareto front.
The second part of Centrale Research work consists in robust optimization. Robust optimization consists in optimizing under uncertainties.They proposed new algorithms for all
kind of approach.
Enginsoft, and Digiteo achieved a better integration of co-simulation with modeFRONTIER
and Scilab. New scripting capabilities have been integrated and now allows Eurodecision
to fully integrate their
optimisation algorithms
mixing Design of experiments and response surface modeling techniques
inside modeFRONTIER.
SMEs:
ENGINSOFT FRANCE,
EURODECISION
CENTRALE RECHERCHE,
DIGITEO
PROJECT DATA
Coordinator:
ENGINSOFT FRANCE
Call:
FEDER0
Start date:
January 2009
Duration:
24 months
Global budget (M2):
1.5
Funding (M2):
0.7
The first delivirery of the Activopt project was the modeFRONTIER 4.2.0 release that
includes the new scilab script. Studies on robust optimization from Centrale Research
have been published, and algorithms from Eurdodécision are going to be integrated.
Scilab release 5.2.0 contains new features that helps co-simulation with modeFRONTIER.
The last months of the project will see more software release and some other researchs
publication on fundamental optimisation.
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AGREGATION
Contrôle commande sûr
pour les moyens d’essais
The chain of aerospace subcontracting is reorganized around the the major actors who
take the responsibility to provide systems incorporating multiple subcontractors to
aircraft manufacturers. One such organization is conceived in a fashion design based
on a complete model of aircraft components. If the major manufacturers have fully
integrated the benefits to be derived from the model-based approach, the chain of
subcontracting progressing too slowly in that direction. For several reasons: lack of
financial resources, lack of trained staff, work habits, leaving the R & D at the client. The
project AGREGATION positions on this issue to provide tools to demonstrate the good
fit between the products developed and modeling.
The technological innovations are focused on three main subjects:
◗ Parallelization of control command over a distributed heterogeneous architecture of
computers connected by a deterministic synchronous network.
◗ Coordination between a numerical modeling of phenomena and analog controls.
◗ Integration of multiphysical models in mechatronic problems.
ON GOING
PROJECT
CONTACT
Emmanuel SOHM
SDI
+33 (0)1 34 18 78 28
[email protected]
PARTNERS
SMEs:
ARION ENTREPRISE,
HPC PROJECT,
SCILAB ENTREPRISES, SDI
ENSEA
The project is link to open source software.
PROJECT DATA
Coordinator:
SDI
Co-label:
ASTECH
Call:
FUI 10
Start date:
February 2011
◗ The main project outcome is the PFCC (PlatForm for Control Command), which is
integrated in the product line COBRA.
◗ The COBRA product line allows to the aero suppliers to test the full compliance
between specification and final product.
Duration:
30 months
Global budget (M2):
1.9
Funding (M2):
0.9
LAMBDA
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AMELHYFLAM
Improvement of industrial electrolytic
processes for hydrogen, fluorine and aluminum
by modeling of electrochemical phenomena
and two-phase coupled hydrodynamics
The AMELHYFLAM project consists in developing a numerical model strongly coupling
biphasic hydrodynamics and electrokinetic calculations in industrial electrolysers,
taking into account the electrochemical phenomena present at the electrode interfaces
/ bath and modeling the behavior of electrogenerated bubbles. This model will be
applied to aluminum production for the Rio Tinto group, to the synthesis of fluorine for
the Areva group and for hydrogen production (hybrid electrochemical / thermal cycle Westinghouse process) for CEA. The numerical model will be built using two tools:
Flux-Expert (Astek company), very well adapted for modeling of electrochemical
phenomena, and Fluidyn MP (Fluidyn company), multi-physics and multi-methods
code.
The main innovations on this project are those concerning the understanding of the
behavior of bubbles in an electrolyzer when bubbles are generated. For an analysis of
these phenomena, acoustic emission tools were used and it was necessary to focus
the attention on the signal obtained with a single bubble in order to decorrelate it from
the global signal of a foam of bubbles. It was necessary to develop electrodes with only
one active site where bubbles car appear and growth. An other innovation was the
determination of bubbles behavior in zero-gravity. To realize such experiences, a partnership was establised with the CNES and an experimental apparatus was installed in
a dedicated zero-G Airbus A300. The analyse of the results is in progress.
The method of coupling between codes was also a very useful tool for the modeling of
such phenomena.
CONTACT
Hervé ROUSTAN
ALUMINIUM PECHINEY
(GROUPE RIO TINTO)
+33 (0)4 76 57 82 11
[email protected]
PARTNERS
Large companies:
AREVA NC, ASTEK,
EURO PHYSICAL ACOUSTICS,
RIO TINTO ALCAN
SMEs:
FLUIDYN TRANSOFT
CEA, ECOLE CENTRALE
DE PARIS (LGPM), INSTITUT
NATIONAL POLYTECHNIQUE
DE GRENOBLE (LEPMI),
UNIVERSITE DE BRETAGNE
SUD (LIMATB)
◗ Interface between codes has been developed by ASTEK and FLUIDYN.
◗ Lab experiments on bubbles behaviour are done at the LGPM with EURO PHYSICAL
ACOUSTIC support (acoustic emission tools used).
◗ Mathematical modelling of bubbles release is done at the LEPMI.
◗ Micro-gravity experiments are done at the LIMATB to understand occuring phenomena.
PROJECT DATA
Coordinator:
ALUMINIUM PECHINEY
(GROUPE RIO TINTO)
Co-label:
TENERRDIS, TRIMATEC,
AXELERA
Call:
ANR
Start date:
May 2008
Duration:
48 months
Global budget (M2):
2.3
Funding (M2):
1
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PROJECT
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Static Analysis and OPTimisation
ON GOING
PROJECT
ASOPT (Static Analysis and OPTimisation) is a fundamental research project, whose aim
is to develop new resolution techniques to improve the quality of static program analysis,
especially for embedded control programs which high-level of criticality, and, in the longer
run, for numerical simulation programs. It exploits the abstract interpretation method,
which allows one to determine a priori some invariants of a program (properties which
are valid for all executions). These invariants can often be expressed geometrically.
For instance, the index variables in nested loops typically lie within convex polyhedra.
Then, methods from convex programming and game theory can be applied to find invariants. The project develops and exploits the emerging interactions between global optimization, game theory, and static analysis, in order to compute accurate invariants.
CONTACT
Bertrand JEANNET
INRIA Grenoble Rhône-Alpes
+33 (0)4 76 61 52 76
[email protected]
Stéphane GAUBERT (local)
INRIA Saclay Ile-de-France
& CMAP
+33 (0)1 69 33 46 13
[email protected]
The main research topics concern the development of:
PARTNERS
◗ refined new domains for the estimation of numerical (real or
floating-point) values of variables;
Large companies:
EADS INNOVATION WORKS
CEA LIST / MEASI, CMAP ÉCOLE
POLYTECHNIQUE, INRIA
GRENOBLE / EPI POPART,
INRIA SACLAY / EPI MAXPLUS,
LIX ECOLE POLYTECHNIQUE,
VERIMAG - CNRS
◗ analysis techniques for complex data structures;
◗ new solution techniques for semantic equations, specially via
optimization and game theory
methods;
◗ modular analysis techniques.
Our backbone technical objective
is the integration of our implementations into open source libraries and tools, with the
development of a generic solver,
to be connected with the library APRON, the interprocedural analyser Interproc, and
the Newspeak frontend to tackle C programs.
PROJECT DATA
Coordinator:
INRIA GRENOBLE / EPI
POPART
Call:
ANR
In order to compute accurate invariants, we developed new domains like zonotopes (an
extension of interval arithmetics modeling correlations between variables) now
implemented in the library APRON, tropical polyhedra (representing disjunctive
invariants) implemented in TPLib, non-linear templates (modelling Lyapunov functions),
as well as new solution methods to compute or approximate the smallest fixed point of
the semantic equations, based on policy iteration, semidefinite programming, and on
modular abstraction. See http://asopt.inrialpes.fr
Start date:
December 2008
Duration:
36 months
Global budget (M2):
2.3
Funding (M2):
0.7
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BACCARAT
Management of Timing Constraints
in Electronic System Design Flows
The aim of this project is to resolve the issue of timing budget and management of timing
constraints during early design phases of complex electronic systems, or in the frame
of a retro-fit for obsolescence management. Systems that are targeted in this project
are made of several electronic boards, called PCB, and may be designed by several
teams, using different design flows in function of the domain (RF, digital, analog, …), or
may be reused from another project. While seting up the budget of timing constraints for
the whole system, one must allocate timing specification for each board and ensure that
the assembly respects the constraints at system level. This project proposes to use
extensions of IEEE 1685 IP-XACT standard for managing the description of these timing
specifications among the several steps of the system design flow.
ON GOING
PROJECT
CONTACT
Emmanuel VAUMORIN
MAGILLEM DESIGN SERVICES
+33 (0)1 40 21 35 50
[email protected]
PARTNERS
◗ State of the art:
• There is no industrial solutions for timing budget and constraints management, at
all level of the system and independent from design flows;
• The work is done manually: excel sheets, in house scripts, design review between teams;
• This methodology has reach its limits: multi-teams, multi-domains, multi-formats,
IP reuse, growing complexity, safety.
SMEs:
AVERTEC, MAGILLEM DESIGN
SERVICES, SAFERIVER
UMPC-LIP6
◗ Objectives:
• Taking in account timing performances of the system early in design flow phases;
• Static analysis of timing performances from system level, down to component level;
• Top-down and bottom up management of timing constraints.
◗ Technical Issues to be solved:
• Multiple formats (Excel, MATLAB, SDC, LIB, etc.) must be managed in IP-XACT for
the timing constraints;
• Static timing analysis (STA) based on IP-XACT;
• IP-XACT based configuration of AMS IPs;
• Management of tracability in the flow for timing information.
PROJECT DATA
Coordinator:
Call:
FEDER2
Start date:
January 2010
Duration:
18 months
Global budget (M2):
1.2
Funding (M2):
0.7
◗ Management of timing information into IEEE 1685 standard (IP-XACT).
◗ Traceability management of timing information through the design flow.
◗ Traceability management of timing information through the hierarchical levels of the
system.
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BINCOA
BINary Code Analysis
ON GOING
PROJECT
Project BINCOA aims at increasing the state-of-the-art of machine code analysis. This
is a basic research project aiming at developing adequate models and algorithms.
Potential applications include automatic analyses of malware, COTS as well as lowlevel C programs incorporating assembly code.
CONTACT
Sébastien BARDIN
CEA LIST
+33 (0)1 69 08 54 16
[email protected]
◗ Elicite users needs and interesting properties to check on machine code;
◗ Design a formal model (DBA)
fits to machine code analysis;
PARTNERS
Large companies:
EDF, SAGEM, TRUSTED LABS
◗ Design algorithms to check the
properties on the model;
◗ Develop a decoder extracting an
CEA LIST, UNIVERSITE
BORDEAUX 1, UNIVERSITE
PARIS 7
DBA description from an executable file;
◗ Develop analysers taken as
input DBAs and checking the
properties on them.
◗ A generic model (Dynamic Bitvector Automata, DBA) with precise semantics to encode most common architectures and instruction sets.
◗ Tool support for DBAs: test generation (CEA LIST), value analysis (LABRI), CFG recovery (CEA LIST)
◗ Precise, robust and efficient CFG reconstruction, i.e. recovering a safe approximation
of the program behavior from its executable file
◗ Innovative solver for formulas expressed into bitvector theory
◗ On-going work: programs with dynamic memory allocation, more properties (ex: re-
PROJECT DATA
Coordinator:
CEA LIST
Call:
ANR
Start date:
January 2009
Duration:
36 months
Global budget (M2):
1.7
covery of local variables), scalability
◗ Some publications:
• S. Bardin and P. Herrmann. OSMOSE: Automatic Structural Testing of Executables. International Journal of Software Testing, Verification and Reliability (STVR),
2011.
• S. Bardin, P. Herrmann, J. Leroux, O. Ly, R. Tabary and A. Vincent. The BINCOA
Framework for Binary Code Analysis. In CAV 2011.
• S. Bardin, P. Herrmann and F. Védrine. Refinement-based CFG Reconstruction from
Unstructured Programs. In VMCAI 2011.
• S. Bardin, P. Herrmann and F. Perroud. An Alternative to SAT-based Approaches for
Bit-Vectors. In TACAS 2010.
Funding (M2):
0.9
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Calculs Massivement
Parallèles multi-cycle /
multi-cylindre de moteurs à
piston par une approche SGE
CAMPAS
The objective of the CaMPaS project is to demonstrate the feasibility of a multi-cycle
Large-Eddy Simulation (LES) of the reactive flow inside a complete multicylinder internal
combustion engine using the AVBP CFD code on a massively parallel supercomputer.
The LES code AVBP was improved to
deal with all the specific and until then
unaddressed problematics required to
set up and carry out the world's first
multicycle LES of a fired multicyclinder
engine. This opens unprecedented perspectives for the study and understanding of combustion instabilities in full
internal combustion engines, which are
sources for increased fuel consumption
and pollutant emissions.
CONTACT
Benjamin RÉVEILLÉ
IFP
+33 (0)1 47 52 62 68
[email protected]
PARTNERS
Large companies:
PSA
SMEs:
CINES
CERFACS, EM2C (CNRS), IFP
◗ Products:
The AVBP code is now capable of:
• dealing with an arbitrary number of moving patches using the Conditioned Temporal Interpolation algorithm
• parallel interpolation of solutions between grids
• parallel partitioning of grids using the ParMETIS package; postprocessing multicyclinder multicycle engine simulations
• automatically adjustment of combustion model parameters using a coupled filtering
module based on the Germano identity
◗ Services:
Adressing multicylinder and multicycle issues such as cylinder to cylinder and cycle
to cycle variabilities which have a negative impact on on engines effeciency will be
possible.
PROJECT DATA
Coordinator:
IFP
Call:
ANR
Start date:
January 2007
Duration:
42 months
Global budget (M2):
0.8
Funding (M2):
0.4
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COMPLETED
PROJECT
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Nano-magnetic sensors applied
to no-destructive evaluation
To reinforce the reliability and the safety of the products, industries use non destructive
testing (NDT) methods, like Eddy currents method (EC). This method knows today a deep
change to fulfil performances for detection of very small flaws (‹100µm) and burried flaws,
while decreasing time inspection. To answer these constraints, new technologies of magnetic
sensors are investigated. These technologies present a high sensitivity and a good resolution.
CANOE aims at proposing technical development making reliable the manufacture of phase
array EC probes containing magnetic nano-components. This project will lead to the
realisation of demonstrators integrating giant magneto-resistances and magnetoimpedances. CANOE will propose for NDT market a new more senstitive and more
performant method of control based on electromagnetic sensors.
ON GOING
PROJECT
CONTACT
Natalia SERGEEVA-CHOLLET
CEA LIST
+33 (0)1 69 08 15 09
[email protected]
PARTNERS
CANOE aims at proposing the innovative realisation of sensible demonstrator based on
magnetic nano-elements. The technical development will make reliable the manufacture of phase array EC probes containing giant magneto-resistances (GMR) and magneto-impedances (MI) elements. In the field of the GMR, technological developments
will be implemented to improve the sensitivity of the sensors. Concerning the nanocomponent the replacement
of the IrMn barrier by the use
of antiferromagnetic insulating (NiO) will reduce the
effects of shunt, the improvement of the packaging
of the probe will reduce the
lift-off. An exploratory work
will in addition be done to
transpose GMR technology
on flexible substrate. In the
field of the magneto-impedances, the scientific developments will make possible
the realisation of phase
array probe containing MI
nano-components. Innovating developments will be
implemented such as the
design of phase array architecture, the realisation of
micro-winding around the
nano-component to increase
the sensitivity and linearity.
Large companies:
AREVA NP SAS,
EADS INNOVATION WORKS,
THALES TRT
SMEs:
STATICE
INSTITUT D'ELECTRONIQUE
FONDAMENTALE (IEF),
LABORATOIRE DE GENIE
ELECTRIQUE DE PARIS
(SUPELEC/LGEP)
PROJECT DATA
Coordinator:
CEA LIST
Call:
ANR
Start date:
December 2010
Duration:
42 months
Global budget (M2):
2.3
Funding (M2):
0.9
◗ CANOE will propose more sensitive phase array EC probe based on innovative magnetic
sensors for detection of small flaws and buried flaws located in a complexe shape parts.
◗ New fabrication techniques of magnetic sensors will be developed.
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CDTO
Optimiseur de Conception et
de Dimensionnement de moyens de Tests
CDTO/ProSpecT is a Decision Support Tool for organising test campaigns by configuring
required resources and planning the assignment of tests to those resources.
◗ Prior to launch of a new model, automotive companies has to carry out a set of tests
in a way to reduce risks and to meet all constraints requested by the design.
◗ The organisation of campaigns is performed under two types of constraints:
• Design constraints (e.g., incompatibilities of equipments on a same prototype,
required equipments).
• Planning constraints (precedence rules, delays when changing location).
◗ A test campaign typically involves about 400 tests, requiring about 70 prototypes.
◗ Building of prototypes incurs costs based on their specific design.
◗ CDTO/ProSpecT integrates all design and planning constraints in order to propose an
optimized organisation for test campaigns in a way that maximises test coverage
under budget constraints.
CONTACT
Hervé ZWIRN
EUROBIOS
+33 (0)1 49 08 57 51
[email protected]
PARTNERS
SMEs:
EUROBIOS
PROJECT RESULTS
◗ CDTO/ProSpecT fully supports and assists the PSA manager in the different stages
for finalizing the planning of test campaigns:
• incorporation of demand requirements from different departments,
• manual adjustment to campaigns proposed by CDTO/ProSpecT in order to incorporate external relevant information and constraints:
- this is a negotiation stage with the different departments with an incentive to
reformulate demands that incur higher costs,
- CDTO/ProSpecT fully assists the user by interactively reflecting the impact on cost
indicators, resources specifications and constraints satisfaction of changes perform on a campaign like:
- adding / removing a resource,
- rescheduling a test, or
- reassigning a test to a different resource,
• launching the manufacturing of resources based on finalized specifications,
• operational management of the campaign to reflect changes during execution.
◗ CDTO/ProSpecT is a Decision Support Tool which:
• manages all the complexity incurred by the intricacies related to technical requirements and configuration constraints,
• generates an optimised plan for organising a test campaign along with detailed
specifications of resources used to perform all the tests,
• proposes plans that minimise costs and the number of required resources,
• assists the manager of the test campaign in the iterative process of adjusting the
lists of demands after
negotiation with the
different departments
that issued those demands.
With CDTO/ProSpecT the
process of organising test
campaigns is rationalised
in order to maximise tests
coverage and to ensure an
optimal use of the allocated budget.
80
COMPLETED
PROJECT
PROJECT DATA
Coordinator:
EUROBIOS
Call:
OSEO
Start date:
September 2007
Duration:
24 months
Global budget (M2):
1.1
Funding (M2):
0.6
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CERtification Compositionnelle des
Logiciels Embarqués critiques et Sûrs
(Compositional Certification of Critical
and Safe embedded Software)
The aim of the project is to solve the problem of the integration tests based on the
capitalization on the certification of components. i.e., how, from the tests associated
with each pre-certificated component, create a comprehensive battery of tests showing
that the directed assembly meets the system requirements and inherite the
certification. Automation expected that creation of tests will lead to a reduction in the
cost of certification of the assembly.
ON GOING
PROJECT
CONTACT
Fabien PAGANELLI
SAGEM
+33 (0)1 58 11 29 84
[email protected]
Starting from a high level formal system
model and on the basis of libraries of component models with according component
test cases, the expected toolset will allow
composition of appropriate components
using the concept of refinement of the high
level system model, putting the focus of
certification on non certified components,
in order to reach the objective of a compositional approach to certification. Technology innovations to be developed in this
scope will rely on formal model fusion approach, a combination of the B workshop with additional modules to be developed, in
conjunction with the Scade toolset and its Lustre based formal language.
◗
◗
◗
◗
PARTNERS
Large companies:
SAGEM
SMEs:
CLEARSY
LIP6, PPS
PROJECT DATA
Coordinator:
SAGEM
Call:
ANR
Evolution of the B methodology.
Additional modules to the B worskhop.
Scade/Lustre code generation based on B formal content.
Start date:
March 2011
Duration:
44 months
Open source toolset.
Global budget (M2):
1.6
Funding (M2):
0.6
COUVERTURE
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CHAPI
Calcul embarqué Hautes performances
pour les Applications Industrielles,
petites & moyennes séries
The collaborative project CHAPI supports the emergence of a new generation of
programmable logic devices, which aims to serve the market demand in high
performance & flexible integrated circuits for embedded computing. CHAPI will focus
mainly on two topics:
◗ the optimization and validation of a first generation of circuits on use cases from several
industrial application domains, and
ON GOING
PROJECT
CONTACT
Christophe LECLUSE
KALRAY
+33 (0)6 48 09 94 55
[email protected]
◗ the integration of complementary software development tools to facilitate the development of new applications.
PARTNERS
Large companies:
ALSTOM, GRASS VALLEY,
THALES
◗ Prototyping of industrial applications using first generation of
Kalray's MPPA™ technology in
the domain of HD video encoding,
image processing, transportation
and industrial automation.
SMEs:
CAPS ENTREPRISE, KALRAY,
LEADTECH DESIGN, UXP
CEA, DIGITEO/SCILAB,
VERIMAG
◗ Adaptation of a time-triggered
operating system and tool chain
for safety critical application support.
◗ Integration of high level parallel
programming environments for
easier application development.
PROJECT DATA
The project began in January 2010. The first phase of the project includes the definition
of the application cases for prototyping and support of the tools integration activites.
Coordinator:
KALRAY
Co-label:
MINALOGIC
Call:
FUI8
Start date:
January 2010
Duration:
36 months
Global budget (M2):
12,4
Funding (M2):
5
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Collaviz
ON GOING
PROJECT
The Collaviz program is an innovative multidomain remote collaborative platform for the
simulation-based design applications. In partnership with 28 French and international
partners, Collaviz will bring to the scientific and industrial community the opportunity to
make remote analysis and collaboration easily available and scalable. Web-based
technologies, on the top of shared high-performance computing and visualization
centers, will permit researchers and engineers handling very large data sets, including
3D data models, by using a single workstation, wherever in the world. Just a “standard”
internet connexion will be needed. Collaviz will propose a smart solution to break the
bottlenecks of data volume production and processing that the industry will quickly face.
CONTACT
Alban SCHMUTZ
OXALYA
+33 (0)1 49 58 45 70
[email protected]
PARTNERS
Large companies:
EDF, FAURECIA
There are 2 different phases into the Collaviz project. The first one will last 24 months.
During this time the workgroups will define the framework architecture and develop
2 prototypes. One after 12 months and the iterative second one 12 months later. The
second main phase will be used to set up the demonstrators as proof of concept.
SMEs:
ARTENUM, DISTENE,
KITWARE, MCLP CONSULTING,
NECS, OXALYA, TECHVIZ
Collaviz will :
AGCO, BRGM, CEA DIF, CEI,
COLORADO SCHOOL OF MINES,
DIGITEO/SCILAB, ECP, EGID,
IFP, INPT, INSA DE RENNES,
INSTITUT DE PHYSIQUE DU
GLOBE DE PARIS, INSTITUT DE
RECHERCHE POUR LE
DEVELOPPEMENT FROM
NEW CALEDONIA, LIRIS,
TERATEC, UNIVERISTE OF
CARDIFF, UNIVERSITE PARIS 6
◗ Provide applications designed for habits of very different communities (geophysics,
fluid dynamics, structure, biochemical, drug design…).
◗ Use mainstream technologies for the service access (low bandwidth internet access,
standard hardware for visualization…).
◗ Deliver interactive and participative collaboration, not only remote “shared display”
visualization.
◗ Provide the tools to manage all the services from a user and administrator point of view,
to have a full transparent access to these scalable resources: visualization clusters, grid...
PROJECT DATA
Coordinator:
OXALYA
Co-label:
IMAGINOVE
Call:
ANR
Start date:
January 2009
The two development phases are now behind the project and an assessment of the
industrialized software version has been done by the demonstrator partners. Collaviz
is now entering into the last year of the project, which is the main one. This last step is
about the development, the adaptation and the tests of the Collaviz framework to the
demonstrators needs. So far, the Collaviz academic partners gathered more than
20 scientific papers accepted by the expert communities.
Duration:
36 months
Global budget (M2):
4
Funding (M2):
2.2
CARRIOCAS, OSCOS
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Conception et Co-Emulation
sur Plateforme en Temps réel
Design & Co-emulation
on a Real Time Platform
Development of a real time emulation & prototyping platform covering the entire design
chain from end product to electronic system and to System-on-Chip (SoC).
Beyond the SoC validation, ease of configuration of the platform and software
environment should allow different approaches to analyze the system architecture in its
electronic environment representative of the application, to retain the best alternative
to meet specifications of the application and limit its risks and costs of development.
COMPLETED
PROJECT
CONTACT
Jean-Luc WEISS
ALTIS SEMICONDUCTOR
+33 (0)1 60 88 58 63
jean-luc.weiss
@altissemiconductor.com
PROJECT RESULTS
◗ Products:
• The main result of the ConCEPT project is the development and validation of the
FCM4 platform that allows the integration in a system environment of a true representation of a SoC to validate the specifications and architecture.
• The platform will be used for the modeling of automotive calculators using multiprocessor architectures, which will be necessary to meet the needs of computing
power, for example an engine controller. This is one of FP7 AutoCoreS project
objectives, currently under evaluation and involving Scaleo chip.
◗ Technologies:
• The platform allows the integration of new concepts such as multi-core architectures and thus anticipates the evolution of automotive, telecom and multimedia domains in line with the trends seen in the field of electronics.
• The CEA MPSoC (Multi Processor System On Chip) structure, prototyped on platform, has led to the optimization of applications management using very high data
flow. This concept is continued in the ARTEMIS SCALOP project involving TCF, Scaleo chip and the CEA.
◗ Publications:
• Article Electronique International Hebdo.
• Journal du Sitelesc.
• Journée du LEAT : "Multiprocessor Architecture for Dynamic Embedded Systems".
• RTS (Mars 07 et Avril 08).
• International Conference on Design Automation and Test in Europe (DATE DATE
2009): "System-Level Hardware-Based Protection of Memory against Soft-Errors".
• The ConCEPT project has allowed Altis to improve its position in the automotive
and communication markets (specific automotive quality requirements and readiness for Flash technology in association with its performance requirements).
• The FCM4 platform is today the reference platform of Scaleo chip for future developments and will enable it to position itself competitively in the targeted markets.
• The FCM4 platform allows the prototyping of a large family of tececommunication
applications and Thales Communications has already positioned the use of this
platform as a alidation environment in the context of internal developments.
• The project has enabled Trialog to assess the possibilities for automated testing
technologies offer On Chip Debugging, which is increasingly used in UCEs.
• The project contributes to the positioning of Valeo in the supply of computers compatible with the AUTOSAR standard.
84
PARTNERS
Large companies:
PSA, THALES, VALEO
ALTIS
SMEs:
SCALEOCHIP, TRIALOG
CEA
PROJECT DATA
Coordinator:
ALTIS SEMICONDUCTOR
Call:
FUI1
Start date:
September 2006
Duration:
24 months
Global budget (M2):
8.7
Funding (M2):
2.7
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COOL IT
Overall optimisation of data
centre energy consumption
The whole electrical power consumption of a data centre may go beyond twice the sole
electrical power needed by processor's units it houses. The project aims at optimising the
total energy needed by a data processing plant, through the four following progresses :
◗ new server's cooling methods
◗ new strategies in control, integration and optimisation of the electrical power paths
◗ collecting and merging energetic information in order to improve the efficiency of the
ON GOING
PROJECT
CONTACT
Xavier SAINT-MARTIN
BULL
+33 (0)1 30 80 74 40
[email protected]
data centre management
◗ optimising hardware resources allocation with regards to the processing needs
The best resolution of these four areas of improvement could lead to energy savings up
to 20%.
◗ Integration of liquid cooling pipes within server’s hardware, while still allowing their
serviceability (repair, upgrade and maintenance).
◗ Stabilisation of laminar air flows in specific areas of the server.
◗ Integration of supercapacitors in each server, along with their monitoring software.
This can avoid using huge equipments (batteries, generators) currently in charge of
overcoming short electical power cuts.
PARTNERS
Large companies:
BULL SAS
SMEs:
ALTERNATIV VISION OF
BUSINESS, ATRIUM DATA,
EURODECISION, SINOVIA
SPLITTED-DESKTOP SYSTEMS,
WILLIAMSON ELECTRONIQUE,
CEA/DAM-IDF, INRIA RENNES
◗ Energy savings shall be designed with no compromise to performance, reliability,
availability and serviceability of the data centre. This calls for identification and modelling of the relationships between these four requirements and the energy footprint of the data centre.
◗ Design and development of management softwares that dynamically detect any configuration evolution of the hardware resources, and that allows to merge all these inputs in a unique application.
◗ Optimisation of all the hardware resources with regards to
the overall energy consumption
of the data centre. This calls for
methods that allocate loads
throughout the hardware resource, in a dynamic, real-time
manner.
PROJECT DATA
Coordinator:
BULL
Call:
FUI10
Start date:
January 2011
Duration:
24 months
◗ Management of the processors
Global budget (M2):
7.7
internal frequency within a
multi-server system.
Funding (M2):
2.5
DESKOLO
Specifications currently being issued (June 2011).
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COntrôle Robotisé Traitement
et EXploitation 3D
The objective of the project CORTEX 3D is to integrate the technological bricks into a
prototype manufacturing process, in order to deliver robotized inspection tool. This
project addresses different field of application such like Energy and Transport,
Aeronautical or Terrestrial. Through the project, hardware and software solutions will
be developed for the integration of robotized Non Destructive Testing (NDT) to be flexible
and leading to high throughput especially for complex structures either very large or
highly curved.
ON GOING
PROJECT
CONTACT
Hubert VOILLAUME
EADS
+33 (0)1 46 97 37 94
[email protected]
PARTNERS
◗ Scenarios and test configuration have been defined. Experiments will be conducted
with large scale components.
◗ Effector developments are focused on ultrasonic nozzle in order to achieve fast non
contact Phased Array inspection on complex geometries.
◗ A specific NDT module is under development, based on the CADFIBER software.
◗ First results have been obtained with the SAUL function, a new algorithm for ultrasonic surface adaptation process.
◗ CIVA software has been already improved and upgraded with new functions dedicated
Large companies:
DASSAULT AVIATION, EADS
SMEs:
CORIOLIS COMPOSITES, M2M,
VISIOLASER
CEA
to the use of Ultrasonic Phased Array technique.
◗ A mock up is under development to achieve the calibration.
PROJECT DATA
Coordinator:
EADS
Call:
FUI8
Start date:
December 2009
Duration:
36 months
Global budget (M2):
1.9
◗ The project is runing well and developments are progressing with all partners. After
a definition phase, all the axis are now on the development way. Several robotic platforms are ready to integrate the new tools and functions.
◗ In parallel to their natural organic growth, SMEs are growing also considering the
field of application and the potential market related to the CORTEX3D project.
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Funding (M2):
0.7
USINE NUMERIQUE 1 & 2
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Confidence, Proof and Probabilities
ON GOING
PROJECT
In the context of safety proofs for critical software, the CPP project studies the joint use
of probabilistic and deterministic semantics and analysis methods, in a way to improve
the applicability and precision of numerical programs static analysis. We aim at defining
static analysis frameworks for control programs, e.g. PID controllers, that contain many
floating point arithmetic computations, non-deterministic and probabilistic behaviors.
Thus, we must construct good approximations of the semantics for non-deterministic
and probabilistic behaviors. Next, we will abstract these semantic models for the
tractable static analysis of complex programs. Finally, we will refine the information
delivered by the previous analysis for characterizing the imprecision error, using
bisimulation metrics and/or extreme value analysis.
CONTACT
Jean GOUBAULT-LARRECQ
LSV
+33 (0)1 47 40 75 68
[email protected]
PARTNERS
New mathematical tools and techniques: credibilities, previsions, bisimulation metrics
and new probabilistic error bounding techniques; generalizations of P-boxes; advances
in guaranteed numerical integration and ODE solving; advances in
static analysis domains and algorithms for numerical software, and
for software in interaction with a
physical environment.
STATUS - MAIN
PROJECT OUTCOMES
New arithmetic combining affine
set and P-Boxes arithmetic that
significantly reduces the over-approximation (publication at SCAN
2010).
CEA LIST, INRIA SACLAY, LSV,
SUPELEC L2S, SUPELEC SSE
PROJECT DATA
Coordinator:
LSV, CEA LIST
Call:
ANR Blanc 2009
Start date:
October 2009
Duration:
36 months
Global budget (M2):
1.2
Funding (M2):
0.5
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Complex Systems Design Lab
ON GOING
PROJECT
The CSDL project (Complex Systems Design Lab) aims at developping a comprehensive
collaborative environment for decision making at the earliest stage of a project. At this
stage that simulation tools are the most strategic to obtain the best design possible by
exploring in a systematic manner the crucial parameters to optimize the system and
enable innovation, by estimating risks and uncertainties through an anaylis in depth of
robustness criteria, and provoding tools enforcing the coherence across all the levels
of models and permitting better decisions thanks to an accurate interactive synthesis
of the necessary information.
CONTACT
Michel RAVACHOL
DASSAULT-AVIATION
+33 (0)1 47 11 52 01
michel.ravachol
@dassault-aviation.com
PARTNERS
◗ The tools used for the design of complex systems in the upstream phases must:
• facilitate the exploration of the design space;
• provide quantified robustness criteria and tradeoffs between the different design
options;
• synthetize efficiently all the generated knowledge to support decision making;
• allow to do all the above in a collaborative environment.
◗ The scientific and technological challenges are:
• the technologies to generate in a systematic manner a hierarchy of interoperable
surrogate models;
• the methodologies and techniques to compute robustness criteria and tradeoffs
between different technologies;
• the dynamic management of the level of fidelity of the models based on the impact
of the decision to be made and the associated level of risk;
• the synthesis of results through interactive visualization to support decision making.
Large companies:
ALCATEL-LUCENT, BULL,
CS-SI, DASSAULT AVIATION,
DASSAULT-SYSTEMES, EADS,
EDF R&D, MBDA, RENAULT,
THALES SERVICES
ANSYS FRANCE, ESI GROUP,
LMS-IMAGINE,
SMEs:
DISTENE, ENGINSOFT,
EURODECISION,
HPC-PROJECT, LOGILAB,
OXALYA, SAMTECH,
ARMINES, ASSOCIATION
LEONARD DE VINCI,
DIGITEO/SCILAB,
ECOLE CENTRALE PARIS,
ENS CACHAN, INRIA, ONERA,
SUPELEC
PROJECT DATA
Coordinator:
DASSAULT AVIATION
Call:
FUI7
Start date:
October 2009
Duration:
36 months
Global budget (M2):
17
Funding (M2):
7.3
The use cases from the aeronautical and the automotive industry have been defined.
The scientific as well as the process integration challenges have been identified.
IOLS, EHPOC,
CARRIOCAS,OPEN-HPC
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EHPOC
High Performance Environment
for Optimization and Design
The main goal of EHPOC consits in delivering industrial platforms, multiscale and
multiphysics software dedicated to global design in order to produce best in class
numerical design tools, especially in the materials field, enabling robust multidisciplinary
optimization of complex products and systems. These platforms and software suite are
a corner stone for industrial innovation and competitiveness, design and development
cycles reduction, productivity improvement.
COMPLETED
PROJECT
CONTACT
Jacques DUYSENS
CS
+33 (0)1 41 28 40 26
[email protected]
EHPOC has enabled the following developments: HPC environment for numerical design
(solvers coupling, visualization algorithms for multiphysics simulations analysis, largescale automatic meshing tools), a complete suite of numerical design tools including
multi-disciplinary optimization capabilities, models pre-processing automation and taking into account uncertainties. Large-acale simulation demonstators were run by optimizing software on massively parallel multi-cores supercomputers. In the materials
fields, challenging simulations were conducted for predicting materials behaviors and
fatigue in severe conditions. Specific tools and calculation procedures were developed for
designing artificial materials within specific optical and acoustial properties.
PARTNERS
Large companies:
AIRBUS, DASSAULT AVIATION,
EADS, EURIWARE, MESSIER
DOWTY, RENAULT, SNECMA,
THALES
BERTIN, ESI GROUP,
LMS IMAGINE
SMEs:
DISTENE, SAMTECH
CEA, CSTB, ECOLE CENTRALE
DE PARIS, ENS, ENSMP, IFP,
INRIA-SCILAB, LABORATOIRE
JACQUES-LOUIS LIONS PARIS
VI, ONERA, PARIS XI
PROJECT DATA
Coordinator:
CS
◗ Products:
Call:
FUI3
• Delamination models for composite materials (integrated into SAMCEF);
• Multi-physics models for welding (integrated into PROCESS);
• DISTENE module for parallel meshing & remeshing.
◗ Services:
Open source grid generator for hexahedral meshing (available in SALOME platform).
To be measured in details later with the exploitation of software platforms integrating
tools and algorithms developped within EHPOC (CSDL, OPENHPC,...) and with the
impact of new advanced technologies coming from EHPOC and embedded into ISVs
software (ESI Group, Distene, Samtech,...).
Start date:
June 2008
Duration:
24 months
Global budget (M2):
16
Funding (M2):
6.3
IOLS, FAME2, POPS, OpenHPC,
CSDL
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NHANCEMENT OF MRAM MEMORY
YIELD AND RELIABILITY
MRAMs are very promising memories for embedded as well as mass memory
applications due to the fact that they offer a rare accumulation of qualities: nonvolatility, high integration density, speed and resilience. Nevertheless, the MRAMs
suffer from the problems of a still young technology. The EMYR project aims at studying
test and repair methods to improve the production yield and the lifetime of MRAMs.
Our goal is to transfer these results to an innovating SME in order to help it reach a
world leader position in this domain. Taking benefit of a silicon run during the project,
the studied methods will be prototyped and implemented by the consortium.
ON GOING
PROJECT
CONTACT
Jean-Pierre NOZIERES,
CROCUS TECHNOLOGY,
+33 (0)4 38 12 10 70,
jpnozieres@
crocus-technology.com
Here, we propose a way to increase
the capacity of masking memory
columns with isolated defective
storage cells using spare memory
columns. For this purpose, single
error correction and double error
detection (SEC-DED) codes already
available for the protection against
high defect densities are extended
such that all double-bit errors
which affect a fixed sub-set of bit
positions in the code words can be
corrected. The cardinality of this
sub-set is significantly higher than
the number of spare columns. A
bit-swapper is employed to map
the bit positions that are protected
by the extended SEC-DED code
against double-bit errors to the
memory columns with defective
storage cells. In this way, single-bit
errors affecting any bit position can
be corrected simultaneously with
single-bit errors induced by any
sub-set of defective memory
columns. The bit-swapper can be
dynamically reconfigured based on
status information from production
test that designates the memory
columns with defective storage
cells. This facilitates the integration
into built-in self-repair schemes.
The project is in an incipient phase (T0+3) and no major outcomes besides the first
scientific innovations can be reported.
90
PARTNERS
SMEs:
CROCUS TECHNOLOGY
CEA LIST, LIRMM
PROJECT DATA
Coordinator:
CROCUS TECHNOLOGY
Call:
ANR 2010
Start date:
December 2010
Duration:
36 months
Global budget (M2):
1.7
Funding (M2):
0.7
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EVOD
Educational Video On Demand
ON GOING
PROJECT
Technological solutions to enable mass deployment of mobile video-on-demand (VoD)
services dedicated to educational use and on-demand delivery of audiovisual archives
(25 000 hours of content). The project specifically addresses the fragmentation of mobile
devices and delivery networks capabilities by massive transactional data processing to
adapt multimedia content to the high variable access conditions of the users.
CONTACT
Frederic BOUILHAGUET
RESONATE MP4
+33 (0)6 63 40 99 12
[email protected]
◗ Adaptability of multimedia content encoding to the wide fragmentation of mobile devices and networks (3G, Edge, WiFi home, Wi-Max) capabilities.
◗ Massive data processing (transcoding, indexing, encryption) on huge volumes of multimedia content.
◗ Performance and accuracy of faces recognition in huge volumes of video data.
◗ Innovative ergonomics of video on demand services for mobile devices: adpatability
of user interfaces to the device capabilities.
PARTNERS
SMEs:
BACKELITE, RESONATE MP4.
INSTITUT NATIONAL
DE L'AUDIOVISUEL (INA),
TELECOM SUDPARIS
◗ On demand video processing platform available on cloud and HPC infrastructures for
transcoding anf faces recognation.
◗ Two field trials of educational video on demand services for Institut National de l'Audiovisuel (INA) and Telecom SudParis.
PROJECT DATA
Coordinator:
RESONATE MP4
Call:
FEDER3
Start date:
September 2010
Duration:
18 months
Global budget (M2):
1.1
Funding (M2):
0.5
NEPTUNE, POPS, PCS
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EXPAMTION
Experimentation of a simulation
infrastructure shared by all actors
of the mechatronic design chain
Experimentation of a collaborative design methodology involving ALL players of the
supply chain using existing simulation software solutions from the software vendors
and accessing to the overall expertise, human resources, hardware and software to
optimize the collaborative design process.
Targeted Goals:
◗ Undertaking current unachievable technical challenges in the automotive mecha-
ON GOING
PROJECT
CONTACT
Alain DUBOIS
SIMPOE SAS
+33 (0)1 60 33 29 90
[email protected]
tronic design process; Innovation in the design process and achievement of the real
results so far unreachable with existing non-collaborative design process;
◗ Elaborate a new collaborative design process method;
◗ Identify requirements and needs involving simulation tools for the upcoming collaborative design process;
◗ Prepare a strong territorial foothold;
◗ Educate SMEs, schools, universities and the market;
◗ Expose automotive market to the SMEs automotive supply chain and simulation software providers;
◗ New business model and a management method.
PARTNERS
Large companies:
BULL, VALEO
ALTAIR
SMEs:
CADLM, INTES, MDP, SIMPOE
CETIM, USVQ, UTC
Porting existing SimpoeMold software from Microsoft C++ to Linux C++, programming
parallel computation to take advantage of LINUX Cluster/system computing power, as
simulation is a very computer intensive task.
◗ Principale expected effects:
Feasibility study of an upcoming collaborative high performance computing infrastructure:
• Identifying and testing the new methods in the R & D field (combining the industries
and laboratories or consortium as for the O2M project).
◗ 6 Significant Challenges:
• MECHANICAL: Parametric analysis and multi-criteria optimization of an engine
cooling module.
• RHEOLOGIC: Plastic Injection Simulation of the front-end part of the vehicle.
• AEROACOUSTIC: LES Simulation of the fan.
• THERMOMECANICAL: Heat Transfer Simulation for the heat exchanger.
• VIBROACOUSTIC: vibroacoustic simulation.
• O2M demonstrators: Design of a complex mechatronic component
◗ With the existence of this project, the optimization of the front-end part of the vehicle
can be seen comprising of:
• The plastic injection of the parts.
• The mechatronic efficiency of the heat
transfer system.
• The aerodynamic of the front end of the
vehicle.
• The acoustic effects.
• Reduction of the CO2 Emission.
◗ Solvers Linux Version are ready.
◗ Parallel computing under test and final revision.
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PROJECT DATA
Coordinator:
SIMPOE SAS
Co-label:
MOV'EO
Call:
FUI6
Start date:
October 2008
Duration:
36 months
Global budget (M2):
8.2
Funding (M2):
3.3
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COMPLETED
PROJECT
Integrate the needs for High Performance Computing and data processing in the design
of a new generation of multiprocessor servers for the 2008 timeframe. Develop
programming tools and libraries to facilitate a high level of parallelisation for future
applications, demonstrate the efficiency on some applications requiring high computing
performance and processing high volume of data.
CONTACT
Jean-François LAVIGNON
BULL SAS
+33 (0)1 30 80 30 38
jean-francois.lavignon
@bull.net
PROJECT RESULTS
◗ Products:
PC system and HPC software.
PARTNERS
◗ Services:
Optimization of architectures and applications.
◗ Patents:
No joint patents, but new IP for partners.
◗ Technologies:
• Functional mock-up and specifications for future servers available.
• Threads management, iterative compiling and multicore parallelisation have been
worked in view of scientific processing and used for some applications.
• ILOG solver on large SMP servers available.
◗ Publications:
26 publications, project presentations in HPC Europe Workshop and Ter@tec Events.
• Data base for 20 million images created first time with tools allowing “intelligent
search”.
• Airflow for a complete airplane simulated with 20 million elements.
• Oil reservoir simulated with 112 million elements, spanning over 300 exploitation
days.
Large companies:
BULL, DASSAULT AVIATION,
ILOG
SMEs:
CAPS-ENTREPRISE,
NEWPHENIX, RESONATE MP4
CEA, ECOLE CENTRALE PARIS,
INSTITUT FRANÇAIS DU
PÉTROLE, INRIA, INT-ARTEMIS,
UNIVERSITÉ D’ÉVRY,
UNIVERSITÉ DE VERSAILLES
SAINT-QUENTIN-EN-YVELINES
Start up creation; new position in market for several partners.
PROJECT DATA
Coordinator:
BULL
Call:
FUI0
Start date:
March 2006
Duration:
18 months
Global budget (M2):
11.3
Funding (M2):
4
CARRIOCAS, IOLS, ParMA
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FLACOMARE
Comportement au feu
des matériaux composites
Composite materials are more and more used from their quality (weight, resistance,
aging..) for the design of structural needs: walls in maritime, self-weight partitions in
buildings, doors in rail transportation, fuselage in aeronautics… In spite of their quality,
one of the main problems of composite is their fire resistance, that is at the time being
only dealt with experimental assessment as fire resistance test. The aim of the
Flacomare project consists on developing a methodology for the assessment of the
thermo-mechanical behavior of composite structures in case of fire. It needs a coupling
of the capabilities in modeling, in combustion, thermal behavior, and structural
behavior at elevated temperature. This development is based and validated on
experimental data.
ON GOING
PROJECT
CONTACT
Daniel JOYEUX
EFECTIS FRANCE
+33 (0)1 60 13 83 81
[email protected]
PARTNERS
As scientific point of view, the main task consists on coupling
the fire development data with the fire behaviour of a product
that is combustible and that has a role on compartmentation
or/and as loading structure. Either such numerical analysis is
done on incombustible and well known material as steel or
concrete, or the characterization is obtained from large scale
tests. In the present situation, methodology has to be defined
to deduce the properties of the different material composed on
the compartmentation product from small scale tests in order
to assess the fire behaviour within different configuration of the
product (thickness, dimension, thermal actions received on exposed surface, homogenous or not). Such configuration should
allow firstly to determine the classification as standardization
concepts and secondly to determine its fire behaviour within a
fire engineering process.
The main outcome is a methodology to assess the fire behaviour of composite products,
combining firstly small scale tests for obtaining thermal, structural and combustible
characteristics of materials, and numerical advanced approach for modelling the
product in its end use.
94
SMEs:
SAMTECH – EFECTIS
LNE
PROJECT DATA
Coordinator:
EFECTIS FRANCE
Call:
FEDER
Start date:
January 2011
Duration:
24 months
Global budget (M2):
1.0
Funding (M2):
0.5
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Infrastructures d'exécution
flexibles pour l'embarqué
Building and deploying future component-based applications require innovative
architectures and methodologies. The purpose of the Flex-eWare project is to provide
a platform for the creation of execution and communication infrastructures for such
applications. These infrastructures are to be optimized, open and flexible; they target
component-based embedded systems. In this context, flexibility means the ability to
change the application structure without recompiling all the code.
COMPLETED
PROJECT
CONTACT
Thomas VERGNAUD
THALES
+33 (0)1 69 41 56 11
thomas.vergnaud
@thalesgroup.com
A canonical component model, the
Flex-eWare Component Model, has
been designed. It is a synthesis and
a generalisation of industrial and
academics experience and best
practices on component-based
modeling. The FCM has been integrated in existing frameworks to
bring component-based modeling
approach. Besides, flexibility points
have been studied and implemented
in very low footprint platforms capable of component replacement at
runtime (Fractal/Think) or reconfiguration with real-time guarantees
(MyCCM-HI).
PARTNERS
Large companies:
ORANGE, SCHNEIDER
ELECTRIC, THALES
TEAMLOG
SMEs:
TRIALOG
CEA LIST, INRIA,
TELECOM PARISTECH,
UNIVERSITE PIERRE ET MARIE
CURIE LIP6
◗ Publications:
About 20 publications in international conferences.
Developed or improved 5 component-based infrastructures: MyCCM-HI (Thales),
Fractal/Cecilia (INRIA), Fractal/Think (Orange Labs), eC3M (CEA), OASIS (CEA).
PROJECT DATA
Coordinator:
THALES
Co-label:
MINALOGIC
Call:
ANR
Start date:
December 2006
Duration:
36 months
Global budget (M2):
5.4
Funding (M2):
2.3
PARSEC
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Formal Proofs of Scientific
Computation Programs
FOST aims at developing and applying methods to formally prove the soundness of
programs used in numerical analysis. In particular, we are interested in programs
which often appear in the resolution of critical problems and in increasing their safety
level. Many critical programs come from numerical analysis, but few people have ever
tried to apply formal methods to this kind of programs. One reason is that formal
methods were too immature to handle such problems. Formal method tools and in
particular formal proof systems are becoming mature and are now able to deal with
the real numbers and with floating-point numbers, which makes it possible to apply
these systems to numerical analysis programs. Moreover, FOST aims at providing
reusable methods that are understandable by non-specialists of formal methods.
ON GOING
PROJECT
CONTACT
Sylvie BOLDO
INRIA
+33 (0)1 74 85 42 26
[email protected]
PARTNERS
FOST aims at providing:
◗ a gallery of formally proved numerical analysis programs;
◗ a library of mathematical facts to base upon in order to
INRIA ROCQUENCOURT,
INRIA-SACLAY, LIPN-CNRS,
UNIVERSITE PARIS 13
bound the method error;
◗ several generic methods and tools for formally proving
numerical analysis programs;
◗ a toolbox for computing scientists to add confidence in
Coordinator:
INRIA SACLAY
their programs.
This means that FOST will deal with two very different kinds
of bounds:
◗ the method error mostly amongst to mathematical demonstrations. We will therefore need to formally prove many
mathematical results and go into the very details of the
pen-and-paper proofs;
◗ the floating point error requires a deep study of the program. We will look into manual and automatic methods to
be able to bound the final error due to roundings at each operation.
The chosen steps are:
◗ study a real program computing the solution of the one-dimensional acoustic wave
equation;
◗ study a large range of numerical programs. Some methods and results obtained previously can be applied (or not);
◗ provide a toolbox for computing scientists. Formal methods are rather obscure for
many mathematicians and we need a lot of pedagogy to bring them to formal tools.
The project started on January 1st 2009. We have studied a program that solves the
one-dimensional acoustic wave equation. Three papers in international peer-reviewed
conferences have been accepted (Calculemus 2009, ICALP 2009, ITP 2010).
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PROJECT DATA
Call:
ANR
Start date:
January 2009
Duration:
36 months
Global budget (M2):
0.5
Funding (M2):
0.1
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Framework and Programming
for Post Petascale Computing
Computational science through applications of high performance computing enables us
to explore uncharted fields of science, and has now become indispensable for the
development of science and technology of the 21st century. High performance
computing systems used for cutting-edge of advanced computational science have
reached to petaflops (a million billion calculations per second) performance, and will be
targeted to the next generation of exascale systems as a post petascale system. Our
goal is to contribute to establish software technologies, languages and programming
models to explore extreme performance computing beyond petascale computing, on
the road to exascale computing.
The post petascale computers will likely be built as a very large, hierarchical, and heterogeneous architecture, integrating different existing and new programming paradigms to push forward the frontiers of HPC. They would require the use of novel adapted
systems, methods, algorithms and languages not previously available for existing supercomputing systems. The main goal of the ANR-JST FP3C project is to be able to
propose to future end-users and software developers a global analysis and solutions on
how to program these platforms. We will address different problems from the applications to the codetuning for multi-core processors and modern accelerators, in particular modern GPUs that offer Teraflops of computing power on a single chip. There are
other cross-cutting topics as fault resilience and low power/poweraware optimization
which are intrinsically associated with the targeted large scale post petaflops computing platforms, and the future exascale computing. These would be the sine qua non
condition for any efficient petascale and exascale computing and perhaps the main criteria to evaluate an application solution. All along the project, these topics will be considered as a critical topic.
ON GOING
PROJECT
CONTACT
Serge PETITON
INRIA
+33 (0)6 15 15 29 80
[email protected]
PARTNERS
Large companies:
CEA/DEN
CNRS IRIT, CNRS PRISM,
INRIA BORDEAUX, INRIA
RENNES, INRIA SACLAY,
KYOTO UNIVERSITY, TOKYO
INSTITUTE OF TECHNOLOGY,
UNIVERSITY OF TOKYO,
UNIVERSITY OF TSUKUBA
PROJECT DATA
Coordinator:
INRIA, UNIVERSITY
OF TSUKUBA
Call:
ANR
Start date:
September 2010
Duration:
36 months
Global budget (M2):
6.1
Funding (M2):
1.4
The consortium agreement was signed beetween Japanese and French teams. The
kickoff meeting was organized on september 6-7, 2010, at INRIA Saclay. The first results
are expected soon, even if the recent Japanese situation perturbed several of the
scheduled meetings and researcher exchanges.
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HDL Code generation
for Safety critical application
The aim of the project is to study an HW design environment able to fulfil the strong
contraints linked to the safety of critical embedded systems. The project is mainly
focused on HDL code generation and its "certificability" for FPGA target based upon
high level requirements but also the verification and validation activity. The application
domain is mainly avionics but the approach could be also adopted for automotive,
process automation and railway. Indeed, the avionics standard is often considered as
pioneering the best pratices later adopted in the other domains.
Tools are developed by SME companies based on requirements provided by industrial
partners which afterwards validate the tools on use case. The impact of certification
overhead is also investigated.
The state of the art in avionics is
to express the HW requirements
by means of text using (Word,
Framemaker,) or dedicated tools
such as (Doors or Requisite Pro)
and "translate" them manually to
write VHDL code. The GENCOD
project aims at providing tools to
work progressively at an higher
level of abstraction using also automatic HDL code generation. All
this approach has to be compliant
with DO254 and safety related
safety verification and validation
activities.
COMPLETED
PROJECT
CONTACT
Michel SARLOTTE
THALES
+33 (0)1 46 13 29 72
[email protected]
.com
PARTNERS
Large companies:
AIRBUS, DASSAULT AVIATION,
SAGEM, THALES
SMEs:
ESTEREL TECHNOLOGIES,
GEENSOFT
UNIVERSITE PARIS SUD 11 LRI
PROJECT DATA
Coordinator:
THALES
Call:
FUI3
◗ Products:
Start date:
September 2008
Development of a generation code prototype fulfiling the DO254 constraints.
Evaluation and comparison of the generated code and the initial code.
Duration:
36 months
Global budget (M2):
2.9
Funding (M2):
1.1
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Data analytics
High Performance image Processing
ON GOING
PROJECT
HiPiP is setting out to obtain high throughput image processing of potentially very large
and heterogeneous data sets. The project is addressing the demand for shorter imageprocessing times in five main areas: detailed brain imaging, minimal invasive surgery,
real-time radiation therapy planning, mass screening for early cancer detection and
faster operation of high resolution electron microscopes. The main users of the
technology will be companies that need fast and affordable complex image processing.
Success will have a major impact on their offering to clients who will be able to get
more informative data readily from their images.
CONTACT
PARTNERS
The main objective of the HiPiP project is
to develop novel methods for parallel
image processing, improving the throughput time of algorithms in order to process
large and heterogeneous data sets and
make them usable for real-time or lowlatency procedures. As hardware parallelism is becoming affordable thanks to
multi-core standard processors, parallel
programming for complex image processing algorithms is still a challenge.
With the ambition of targeting cost-effective solutions, the project addresses three
main research topics that are: parallel
image processing on a multi-core standard processor, improvement of tasks
parallelization and scheduling using the
multi-core standard processor for all
tasks during low latency image processing, including the background tasks, and
server-based architectures for several
pieces of imaging equipments. Image processing parallelization implies transforming the algorithms structures to make
them run on standard multi-core hardware. Application parallelization aims at
defining a generic architecture for executing parallel tasks. Relying on serverbased computing resources needs to keep-up with the constraints of network resources.
Frederic SOINNE
BULL S.A.S.
+33 (0)4 76 29 75 11
[email protected]
Large companies:
BULL, FEI. PHILIPS
HEALTHCARE
SMEs:
DOSISOFT, IMSTAR,
TECHNOLUTION
CEA
PROJECT DATA
Coordinator:
PHILIPS HEALTHCARE
Call:
ITEA2
Start date:
October 2008
Duration:
36 months
Global budget (M2):
4.8
Funding (M2):
1.4
FAME2, TER@OPS
Demonstrators will be built to evaluate and validate the feasibility of complex image
processing using standard multi-core hardware. They will address imaging systems for
several modalities (X-ray, MRI, PET, CT scan, cellular imaging, electron microscopy),
usages (real-time minimal invasive surgery, assisted cellular in vitro diagnostic,
complex simulation, high resolution instruments) and packaging (“One box”, server or
cluster). Reports will be issued on parallelization and scheduling of imaging.
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INDIAC
INversion et DIagnostic Automatique
en Contrôle non destructif
The INDIAC issue is to assist diagnostic after a non destuctive testing with calculating
tools based on inverse algorithms and strong direct models. The goal of this project is
to enhance the early development in modelisation to built helping tool for diagnostic
based on an optimal use of simulated data.
COMPLETED
PROJECT
CONTACT
Séverine PAILLARD
CEA LIST
+33 (0)1 69 08 46 95
[email protected]
The INDIAC project developed software tools to assist diagnostic. These tools are based
on eddy current or ultrasonic models. An inverse model is developped for EC data interpretation (EDF), for UT testing, methods developped are based on specific data post-processing (CEA LIST) and neural network (CEV) in order to improve flaw characterisation.
In order to optimize these models, tools are built like adaptative data-base (L2S) or "real
time" (M2M) related to the platform CIVA.
PARTNERS
Large companies:
CEA LIST, CEV-VALLOUREC,
EDF
SMEs:
M2M
L2S
PROJECT DATA
Coordinator:
CEA LIST
Call:
ANR
Start date:
April 2008
Duration:
36 months
Global budget (M2):
0.8
Funding (M2):
0.4
◗ Publications:
• "Adaptive database for eddy-current testing of metal tube" accepté au "8th International Symposium on Electric and Magnetic Fields", EMF 2009 qui s'est tenu en
mai 2009 à Mondovi (Italie) présenté par SUPELEC-L2S.
• "New ultrasonic array imaging of crack-type defects based on simulated-helped
processing", accepté au "10th European conference on nondestructive testing",
ECNDT 2010 qui s'est tenu en 29 juin 2010 à Moscou (Russie) présenté par CEA LIST.
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IOLS
Infrastructures and Software
Tools for Simulation
COMPLETED
PROJECT
The 1st target of IOLS was the design and the development of generic software and
platforms for products and process global design and optimisation (coupling, largescale meshes, visualisation, …). The 2nd goal was the development of methodologies for
multiscale simulations and multi-disciplinary optimisation. Demonstrators were
essentially focused on industrial computer-aided solutions for materials applications:
aging, multi-materials assemblies, new advanced materials for optics. IOLS was also
the first project to deal with Simulation LifeCycle Management and CAD-CAE links
applied to crashworthiness analysis.
CONTACT
PROJECT RESULTS
PARTNERS
◗ Products:
Platform and tools: Integration/Coupling of new “black box software tools” (CNES);
New coupling tool integration (applications for CEA, EDF); Large-scale data visualization (filtering/décimation); Meshing tools; Commercial tools (ESI Group, Samtech …).
◗ Services:
Crashworthiness analysis of
multi-materials assemblies;
Injection component optimization (plasturgy); Optics properties (Periodical structured
materials design).
Jacques DUYSENS
CS
+33 (0)1 41 28 40 26
[email protected]
Large companies:
CS, DASSAULT-AVIATION,
DASSAULT-SYSTÈMES, EADS,
EDF, RENAULT, SNECMA,
THALES
BERTIN TECHNOLOGIES,
ESI GROUPE, OPEN-CASCADE
SMEs:
DISTENE, SAMTECH
◗ Technologies:
CEA, CNES LAMSADE, CSTB,
ECP, ENS, ENSMP, IFP, INRIA,
ONERA
Multi-Scale & Multi-Physics calculation for behaviour and aging
of metallic materials and concrete; Welding process simulation tools.
◗ Publications:
• J. Duysens, “IOLS: A French
Initiative for Developing Platforms and Software dedicated to High Performance
Multiphysics and Multidcale Global Design Optimization”, 7th World Congress on
Computational Mechanics, July 16-22, 2006, Los Angelès, CA, USA.
• Duysens J., Langlois St., Nakhlé M., “High Performance Computing Approach for
Advanced Polymer Injection Molding Simulation”, 9th US National Congress on
Computational Mechanics, July 22-26, 2007, San Francisco, CA, USA.
◗ Job creation:
Global figure estimated to 50 or 60.
Industrial deployment of Simulation Lifecycle Management technology; new business for commercial software (crashworthiness and welding process fields).
PROJECT DATA
Coordinator:
CS
Call:
FUI0
Start date:
November 2006
Duration:
28 months
Global budget (M2):
11.4
Funding (M2):
4.8
EHPOC, MACAO (Aerospace
Valley)
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IOMCA
Including Ontologies in Monte-Carlo
Tree Search, with applications
Monte-Carlo Tree Search is a revolution in highdimensional planning. The first very impressive
results of MCTS were in the game of Go; the TAO
team also realized applications in other fields of
computer science. In this project, we will investigate:
ON GOING
PROJECT
CONTACT
Olivier TEYTAUD
TAO
[email protected]
www.lri.fr/~teytaud/iomca.html
◗ improvements of MCTS,
◗ its application to energy production management.
PARTNERS
◗ Improvements of Monte-Carlo Tree Search.
◗ Experimentations in artificial and real world problems, including energy planning.
SMEs:
ARTELYS
CNRS, INRIA, NUTN
(NATIONAL UNIVERSITY
OF TAINAN, TAIWAN),
UNIVERSITE PARIS SUD 11
(TAO)
◗ New developments around MCTS (publications).
◗ New experiments (in particular around scaling).
◗ Experimental results on energy problems.
PROJECT DATA
Coordinator:
TAO
Call:
ANR
Start date:
January 2010
Duration:
36 months
Global budget (M2):
0.8
Funding (M2):
0.3
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IRIMI
Imageur Robotisé pour
les Interventions Mini-Invasives
Worlds of Interventional Radiology and Cardiology on one side and Surgery on the other
side have been converging is the past few years. The difference between interventional
rooms and image guided surgery suites starts vanishing. Many clinical institutions want
to migrate toward solutions combining attributes of these two worlds: sterile environment,
surgery table, high-end imaging system, … Therefore, it becomes necessary to integrate
interventional imaging systems inside the surgery room without compromising
ergonomics, sterility, and imaging performance, while not imposing additional constraints
upon the medical staff nor extra costs. The IRIMI project’s objective is to demonstrate the
feasibility of a robotic imaging system that meets the needs of both interventional and
surgical procedures.
ON GOING
PROJECT
CONTACT
François KOTIAN
GE HEALTHCARE
+33 (0)1 30 70 98 12
[email protected]
PARTNERS
Large companies:
GE HEALTHCARE
Confidential.
C&K COMPONENTS
SMEs:
BA SYSTEMES
Confidential.
CEA-LIST, CR2I, IRCCYN
PROJECT DATA
Coordinator:
GE HEALTHCARE
Co-label:
IMAGES & RESEAUX
MEDICEN
Call:
FUI9
Start date:
April 2010
Duration:
24 months
Global budget (M2):
18.6
Funding (M2):
5.7
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JASMIN
Jalon pour l’Amélioration des
Stratégies de Manufacturing
INtelligence
The objective of the JASMIN project is to extend Smart Manufacturing to the whole
company and its suppliers. This extension of production optimizations techniques
operates on several axes: handling multiple objectives (in terms of quality, defect ratio,
ecological footprint…), retrieving product data coming from suppliers or other factories
(multi-site architecture), ability to optize batch production, improvement of the
calculation of the risk to produce undesired results. The elaboration of a support
method and of simulation tools should help actors adapt to the new Smart
Manufacturing approach.
CONTACT
PARTNERS
The project will rely on the scientific know-how of the three partners in the machine
learning, process optimization and computer science fields. The main innovation will be
the ability to propose a unified, easy to understand rule-based model to assess risk and
solve complex production issues in an industrial company, extended to its supply chain.
The improvement of the risk prediction will aim at reducing overfitting, a well-known
academic problem, which occurs when a model learned on test data does not work in
actual production conditions.
Yann D'ARAMON
INTERCIM
+33 (0)1 44 76 81 83
[email protected]
SMEs:
CADLM, INTERCIM
TAO RESEARCH GROUP
(INRIA / CNRS / LRI)
PROJECT DATA
Coordinator:
INTERCIM
Call:
FEDER
Start date:
December 2010
Duration:
24 months
Global budget (M2):
1.3
Funding (M2):
0.6
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ON GOING
PROJECT
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Jeu Educatif pour la Stimulation
Multisensorielle d’Enfants atteints
de troubles envahissants
du développement
The main objective of the JEStiMulE project is to better define and further expand the
use of serious games. The work will be based on the development of a low-cost
demonstrator. This demonstrator will be an interactive multisensory game combining
visual, auditory and tactile feedback. The game will be used as a complement to the
psychotherapy of children with pervasive developmental disorders, including autism.
These children have impaired social skills and communication. Therefore, the
interactive game will focus on teaching these skills (e.g. emotions recognition, ability
to converse). The final demonstrator will be evaluated with end users and with a
combination of HCI and neuroscience methods .
◗ Expanding the use of serious games on the basis of a practical health-related application.
◗ Involving users very early in the design of the serious game.
◗ Analysis, modeling and integration of current therapies, which are particularly effective
for autistic children.
◗ Integration of haptic and tactile
interfaces to ensure richer interaction with the real world.
ON GOING
PROJECT
CONTACT
José LOZADA
CEA LIST
+33 (0)1 46 54 90 49
[email protected]
PARTNERS
SMEs:
HLP TECHNOLOGIES,
IDEES 3COM
CEA LIST, CHU NICE,
UNIVERSITE DE NICE-SOPHIA
ANTIPOLIS
◗ Development and evaluation of a
tactile language for the transmission of emotional cues and
information.
PROJECT DATA
◗ Evaluation of the utility, usability
Coordinator:
CEA LIST
and user experience with the serious game.
Co-label:
CAP DIGITAL
◗ Use of a combination of evaluation methods from HCI, psychiatry and neuroscience.
Call:
SERIOUS GAMING
The project started on 5th January 2010. Preliminary user evaluation with existing
technologies and 12 autistic children have been done. The game scenario was designed
and the technological specifications were done. We started the game development and
a first prototype for the tactile interaction device is currently available. A new evaluation
campaign is on-going to validate the technical developments. Final evaluation is
planned for the second half of this year.
Start date:
January 2010
Duration:
24 months
Global budget (M2):
1.2
Funding (M2):
0.6
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Lattice Boltzmann Solver
ON GOING
PROJECT
Development of a numerical tool for computational fluid dynamics based on Lattice
Boltzmann Method and optimized for massively parallel computing.
◗ Application fields : automotive, railway and aeronautic industries.
◗ Target applications : aerodynamic simulations (calculation and optimization of aerodynamic drag and lift coefficients), aeroacoustic simulations (design optimization for
noise sources reduction) and acoustic simulations (porous materials modeling).
CONTACT
Denis RICOT
RENAULT
+33 (0)1 30 03 20 25
[email protected]
One of the key objectives of LaBS is to offer the first commercial software with direct
aeroacoustic simulation capabilities (simultaneous simulation of aerodynamic noise
sources and their acoustic propagation).
PARTNERS
◗ Immersed Boundary conditions approach and octree-based mesh for full automatic
meshing on very complex geometry.
◗ Code performance optimization for massively parallel computation on very large mesh.
◗ Development and validation of Large Eddy Simulation turbulence models to capture
unsteady flow physics on industrial configurations.
◗ Direct noise calculation with improved numerical schemes for acoustic propagation.
◗ Microscopic characterization of porous materials and development of condensed
models of acoustic porous materials for the Lattice Boltzamnn Method.
◗ Development of numerical methods
Large companies:
AIRBUS, ALSTOM, CS-SI,
RENAULT
SMEs:
MATELYS ACOUSTIQUE
& VIBRATIONS, OXALYA,
SIGNAL DEVELOPPEMENT
ENS LYON, ONERA,
UNIVERSITE PARIS 6,
for sensitivity and error analysis,
and for aeroacoustic source identification.
◗ Drafting of the best practices guides
for industrial simulation based on
extensive software validations.
◗ Development of a dedicated GUI
software and integration of LaBS on
a web platform for a commercial
distribution based on a CPU-onDemand service.
◗ Beta version of the GUI software available.
◗ Solver under validation on fully turbulent
flows.
◗ Parallel solver available on the Virtual Nodes
platform (CPU on Demand) for validation
phase.
◗ First works on porous medium modeling
done.
◗ Six publications submitted to international scientific journals by academic partners:
complex differentiation of LB scheme, time-reversal LB model, dispersion an dissipation preserving LB schemes for computational aeroacoustics, improvement of LB.
106
PROJECT DATA
Coordinator:
RENAULT
Co-label:
LUTB, MOV'EO, MTA
Call:
FUI8
Start date:
November 2009
Duration:
36 months
Global budget (M2):
3.7
Funding (M2):
1.9
CSDL, SCOS
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Libraries for Applying Model-Based
Development Approaches
In the context of embedded software deployed on "off the shelf" execution platforms, the
LAMBDA project has two major goals:
◗ To demonstrate the technical feasibility and the interest of model libraries by formalising the key properties of execution platforms,
◗ To reconcile appropriated standards (SysML, MARTE, AADL, IP-XACT) with de facto
standards (already implemented by widespread analysis and simulation tools).
COMPLETED
PROJECT
CONTACT
Joseph MACHROUH
THALES
+33 (0)1 69 41 57 21
joseph.machrouh
@thalesgroup.com
Lambda focuses on systems composed of complex assemblies of COTS, on test cases
that are representatives of system integrators issues (control of network latencies, task
scheduling, configuration). Based on SysML/MARTE architectural descriptions, different kinds of analytical and simulation models are developed. Models are calibrated
and validated against measures performed actual platforms.
◗ Publications:
• Espinoza (CEA LIST); B. Selic (Malina Software Corp.); D. Cancila (CEA LIST); S.
Gérard (CEA LIST), Challenges in Combining SysML and MARTE for Model-Based
Design of Embedded Systems, H. ECMDA’09, The Netherlands, June 2009.
• Sébastien Gérard and Huascar Espinoza, A profile for embedded systems development, International School on Model Driven Design for Distributed Real-time Embedded Systems, Aussois, France, April 2009.
• Frédéric Mallet, Charles André, Julien DeAntoni: Executing AADL models with
UML/MARTE, ICECCS – UML & AADL’09, Postdam (Germany), June 2009 (pp 371376).
• Charles André, Frédéric Mallet, Aamir Mehmood Khan, Robert de Simone: IP-XACT
components with abstract time characterization, FDL’09, Sophia-Antipolis (France),
Sept 2009.
• JOUAULT, J.-S. SOTTET. An
AmmA/ATL Solution for the
GraBaTs 2009 Reverse Engineering Case Study, in "5th International Workshop on
Graph-Based Tools, GraBaTs
2009", 2009.
PARTNERS
Large companies:
AIRBUS, KONTRON,
STMICROELECTRONICS,
THALES
SMEs:
ADACORE, ARION, ATEGO,
COFLUENT DESIGN, ESTEREL
TECHNOLOGIES, OBEO,
PRISMTECH FRANCE
CEA LIST, INRIA, SUPELEC
PROJECT DATA
Coordinator:
THALES
Call:
FUI5
Start date:
June 2008
Duration:
36 months
Global budget (M2):
5.3
cade System, Cofluent, Papyrus,
Obeo Designer.
◗ Job creation:
Funding (M2):
2
Creation: 2 CDI, 2CDD.
Preservation: 5 CDI.
VERDE, CESAR
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MIEL
MIxed ELement - 3D Mesher
ON GOING
PROJECT
The main goal of the MIEL project (MIxed ELement - 3D Mesher) is to optimize the
meshing activity prior to a numerical simulation by addressing two main challenges:
technical (simulation requires robust, high quality and fast meshing technology) and
strategic (since meshing is cost effective in human resources, it often takes place in
low cost structures). MIEL will give powerful tools for meshing and modelisation in a
pragmatic frame with a reasonnable ambition. These tools aim at being used by
commercial software as well as open source environments.
CONTACT
Philippe PASQUET
SAMTECH FRANCE
+33 (0)1 69 59 22 80
[email protected]
PARTNERS
The three phases described hereafter will end with tools allowing concepts verification. The final goal is to provide engineers with an open strategy to mesh a volume
structure, using either tetrahedra or hexahedra, or a mixture of both. The quality of the
mesh (element shapes, number of elements) must be the only criterion; so that engineers can concentrate on the sole physical side of the simulation. Finally tools will be
implemented in SAMCEF in order to be validated.
Three main phases followed by tools' implementation in a simulation environment and
validation on industrial cases.
◗ First phase: generalized volume meshing algorithm filling any closed surface,
◗ second phase: algorithm of frontal volume multi-element meshing and
◗ third phase: combination of both previous methods.
DISTENE and INRIA will work mainly on theory and generic tools.
SMEs:
DISTENE, SAMTECH FRANCE
INRIA
PROJECT DATA
Coordinator:
SAMTECH FRANCE
Call:
FEDER 1
Start date:
September 2009
Duration:
36 months
Global budget (M2):
1
Funding (M2):
0.5
CSDL, EHPOC
Mesh of the GMP use case (CSDL) built by the tools developped into MIEL3D-Mesher
After starting 18 months ago, INRIA (PhD) works on automatic meshing for maxwell
equation resolution (first version 2D is available). Distene goes on the development of
several strategies (tetrahedron, hexahedron then mixed) in order to improve their algoritms
that SAMTECH uses for testing performances and robustness (by plugin in SAMCEF_Field
and comparison with other tools) and INRIA is using for non conforming meshes.
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MOHYCAN : MOdélisation HYbride
et Couplage Analytique -Numérique
pour le CND / HYbrid MOdeling
(Numerical/Analytical) for NDT
Non Destructive Testing (NDT) aims at detecting, sizing and characterizing possible
flaws inside components. NDT is largely involved in industrial sectors for which safety
is a key issue (energy, transportation,…) and needs to adress complex configurations
(structures, materials, geometry…). Simulation tools may provide efficient solutions for
conceiving inspection techniques and/or probes, interpreting complex results,
predicting inspection performances and qualifying procedures, but such skills have to
be reached with computation times compatible with industrial use. In this framework,
The MOHYCAN project, supported by ANR (French National Research Agency) aims at
coupling numerical methods (Finite Elements) and semi-analytical methods (integral
techniques) to provide fast and accurate results to assess complex industrial needs.
COMPLETED
PROJECT
CONTACT
Steve MAHAUT
CEA LIST
+33 (0)1 69 08 47 14
[email protected]
PARTNERS
Large companies:
EDF
A new coupling method has been defined
and implemented for 2D configurations,
which allow to reduce computation times
while keeping precise and robust simulations. In order to access 3D configurations
on different OS platforms, a protocol has
been achieved to run parallelized 3D
Finite Element computations on distant
machines (clusters).
Dedicated visualization and analysis tools
have also been developed for better interpretation and understanding of complex
physics phenomena involved in the echo
formation for complex flaws interactions.
SMEs:
CEDRAT
CEA LIST, CNRS, ENSTA,
INRIA (POEM)
PROJECT DATA
Coordinator:
CEA LIST
◗ Products:
The hybrid simulation tool will be available in a further commercial version of the
CIVA software developed at CEA.
◗ Publications:
2 communications in national (Journées COFREND 2008, Toulouse) and international
conferences (ECNDT2010, Moscow).
Call:
ANR
Start date:
March 2007
Duration:
36 months
Global budget (M2):
1
Funding (M2):
0.4
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Middleware Ouvert pour
Systèmes d'Informations Critiques
The goal of MOSIC project is to gather partners experience and create a full middleware
for critical information systems. The new middleware will integrate in a consistent
manner both service oriented and data-centric architectures. It will also come with
model oriented engineering tools that will ease application components implementation,
their deployment and the middleware configuration. Then a service offer will be made
around this open solution in compliance with standards. Result product will integrate and
improve two major middleware standards from the Object Management Group (OMG)
(CCM - CORBA Component Model; DDS - Data Distribution Service). Target is critical
information systems.
The project has managed to find an efficient way to combine Component approach with
Data Distribution Services but also to identify and select relevant use cases that are actually
used to design critical information systems. Moreover, a set of Quality Of Service have
been specified and can be verified on the early stages of the system architecture.
The project is a success for all the partners. From a technical point of view, the consortium
managed to define a new OMG standard, to provide a reference implementation and to
develop a modeling tool chain. Others implementations of this new standard have been
announced. This middleware, gathering
Service Oriented Architecture and Data Distribution Services is already being used to
answer critical information systems needs.
Parts of the results of the MOSIC project
have been provided as Open Source Software under the OW2 consortium and
OpenSplice.org and professional services
are available as for industrial quality
maintenance. PrismTech is also offering
an enterprise version of the modeling
tools, providing added value for the design
and development of complex and critical
systems such as Air Traffic Management
at European scale or other international
programs.
COMPLETED
PROJECT
CONTACT
Jérome FICHEZ
THALES AIR SYSTEMS
+33 (0)1 79 61 14 62
[email protected]
PARTNERS
Large companies:
THALES AIR SYSTEMS
SMEs:
OBEO, PRISMTECH
TELECOM PARISTECH
PROJECT DATA
Coordinator:
THALES AIR SYSTEMS
Call:
FUI4
Start date:
December 2007
Duration:
28 months
Global budget (M2):
4.2
◗ Products:
Project allowed Obeo to realize evolutions on his products:
• ATL;
• EMF Compare;
• Obeo Designer;
• Acceleo;
• Added value COTS products offer: developing tools PSM for CCM and for CCM DDS integration.
◗ Services:
« Entreprise » version of Open Source products (OSS): industrially supported version
• Services offer: consulting, portings, specific developments
◗ Job creation:
3 + 5 to be created.
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Funding (M2):
1.7
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MOdelling VIews and Decision
support for Architects
The industrial needs are growing for proper tools to support trade-off decisions of
systems engineers and architects when designing complex systems with significant
non functional requirements and constraints. The difficulty to embrace the whole
complexity of the concerns and the difficulty to manage their inter-relations has raised
the interest of the engineering community for “concerns driven” engineering. This is
addressed today through the exploration of “viewpoint modelling” technologies and the
multi-criteria analysis. The MOVIDA project aims at developing a tool environment that
supports model-driven viewpoint engineering in response to these needs.
ON GOING
PROJECT
CONTACT
Jérôme LE NOIR
THALES RT
+33 (0)3 31 41 60 56
[email protected]
http://movida.gforge.inria.fr/
PARTNERS
Complex system engineering requires the use of advanced modelling techniques to define,
exploit and analyse system architectures. While the current practices provide an adequate
support to build traditional systems, a growing complexity brings in new requirements for
processes and tools. Architecture frameworks have been introduced to manage this complexity by formalising architecture descriptions in a series of viewpoints covering stakeholder-specific concerns. The main contribution of this project is to refine this standard,
addressing the model-based system engineering concerns from the perspective of tooling
an Architecture Framework. In particular, it elicits four main concerns that appear in Architecture Framework, how do we: guarantee consistency between views, define the representations of views, integrate variability into views and how do we help system engineers
to perform multi-views trade-off analysis.
Large companies:
THALES
SMEs:
OBEO
INRIA, UPMC
PROJECT DATA
Coordinator:
THALES RESEARCH
& TECHNOLOGY
Call:
ANR
Start date:
January 2009
Duration:
36 months
Global budget (M2):
1.5
Funding (M2):
0.9
◗ MOVIDA Studio available containing:
• Obeo Designer for viewpoint speficiation.
• Praxis tool for inconsistency detection between views.
• A tooling for feature modelling and model derivation.
• A decision aid tool (Myriad).
◗ Publications:
• Operation Based Model Representation: Experiences on Inconsistency Detection
Managing variability in multi-views engineering, A live Demo at Journée Lignes de
Produits in Paris.
• Towards Automated Inconsistency Handling in Design Models.
• Weaving Variability into Domain Metamodels.
• On the robustness for the Choquet integral.
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Multiobjective System on Chip Exploration
COMPLETED
PROJECT
The project targets SoC(System on Chip) design using a large number of simple
computing elements for high performance multidomain applications (wireless,
multimedia). The organisation of the computing elements must be regular but is not
imposed. The selection of the topology of computing elements and the automation of
the interconnect design for this topology as well as an automated mapping on a
prototyping engine are the main functionnalities targeted by the project.
As a result of the project a complete top-down flow will be available. Starting from high
level application constraints (performance, bandwidth, latency) and a targeted topology,
the user will get an interconnect architecture well suited for the level of traffic required
by the application.
CONTACT
Philippe DI CRESCENZO
ARTERIS
+33 (0)1 61 37 38 58
[email protected]
PARTNERS
SMEs:
ARTERIS, EVE
Development of an integrated
architecture exploration solution
for Arteris NoC based
SoC architecture including TLM2
modellisation techniques associated with high end emulation
technology. The use of TLM2 in
the first phase of a SOC design
allows to take early decision on
the architecture.
The flow integration with EVE's
ZebU emulator and ENSTA optimization techniques allows then
to refine the choice at incomparable speed and to do analysis
that are impossible in a classical
verification environment.
In the latest developement of the project observability techniques have been activated in
order to measure the real activity of the sytem in term of latency and bandwidth.
ENSTA
PROJECT DATA
Coordinator:
ARTERIS
Call:
FEDER
Start date:
September 2009
Duration:
18 months
Global budget (M2):
1.5
Funding (M2):
0.7
◗ Publications:
Related systematic project(s):
Ter@ops
• An Automatic Design Flow for Data Parallel and Pipelined Signal Processing
Applications on EmbeddedMultiprocessor with NoC Application to Cryptography
(Xinyu Li and Omar Hammami).
• MPSOC’11 à Beaunes le 8 Juillet « combining NoC synthesis with multiobjective
design space exploration on large scale emulator ».
◗ Patents: NO
Exploration functionnality has been added to FlexNoC from Arteris.
◗ Job creation:
Arteris 1 , ENSTA 2 PhD.
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N-POEM
Nano-objets périodiques imprimés
sur polymères pour l'électromagnétisme
The aim of N-POEM proposal is to design, fabricate and characterize emerging periodic
nanostructures for three electromagnetic and optical functionalities: microwave regime
absorption, filtering and antireflecting. This project groups expertise of different
partners in nanofabrication, nanosciences including design and simulation.
Nanofabrication processes will be based on nanoimprint on flexible polymer film. Their
interest is a reduction of technological steps, resulting in a decrease of production cost
and time. The aim of this project is to develop technological processes for industrial
applications. It will lead to a high maturity level of nanoimprint technique, compatible
with industrial requirements in new domains such as devices for aircraft
manufacturing, photovoltaic’s, information and communication technologies…
ON GOING
PROJECT
CONTACT
Cécile GOURGON
LTM
+33 (0)4 38 78 98 37
[email protected]
PARTNERS
The main innovation of this project is the use of nanoimprint processes on flexible substrates for industrial applications. The functionalities which will be addressed are : absorption in the microwave regime, filtering in the infrared range, and anti-reflexion in
the [500nm-5µm] spectral domain. These three functionalities are representative of
three kinds of demonstrators which will be realized during the project. Industrial applications require large surface and light-weighted devices, especially for aircraft manufacturing. Thus, the substrates have to be flexible, thin and larger than 10x10 cm².
Moreover fabrication processes have to be robust and low cost. This project highlights
emerging large-scale lithography which combines high resolution and large surface
with the nanoimprint technique. It is also cheaper than standard lithographies used in
microelectronics. The challenge consists here in using flexible substrates. It is the sole
solution to produce nanostructured large surface coating. In order to limit the number
of technological steps and to reduce the fabrication cost, specific patterns (shape, aspect ratio ...) and processes (highly directional deposition technique) will be developed.
Large companies:
ARKEMA,
DASSAULT-AVIATION,
THALES OPTRONIQUE SA
CEA, CNRS-LTM, IM2NP
PROJECT DATA
Coordinator:
CNRS
Co-label:
MINALOGIC
Call:
ANR
Start date:
December 2010
Duration:
40 months
Global budget (M2):
2.4
Funding (M2):
1.0
The project started at the end of 2010. Until march 2011, patterns have been specified
for the different demonstrators, and NIL processes have been already tested on a
specific polymer.
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Outils de Modélisation et de conception
Mécatronique Phase 1 (Modelling and
Design Tools for Mechatronics)
COMPLETED
PROJECT
phase 1
Today there is no global solution for supporting the development of mechatronical products, and there are a lot of fractures within the cycle of conception. Therefore the
design phase is time consuming, with too much risk in terms of reliability, safety, performances, and failures during the industrialisation phase.
O2M develops a new generation of tools to support the conception of mechatronical
products, especially for automotive applications. All process levels are addressed:
"pre-dimensioning", integrated design, multi-physic simulation and validation. During
the phase 1, business needs (170 use cases) and functional specifications have been
defined.
After feasibility studies, this phase will be closed by the presentation of mocks-up by the
end of July 2009.
The phase 2 will focus on detailed specifications and the progressive delivery of the
Solution.
PROJECT RESULTS PHASE 1
◗ Products: The project includes 8 sub-projects:
• SP1 PTRONIC - Infrastructure.
• SP2 AROME – Reliability Analysis and multi-physics optimization.
• SP3 PREDIM – Multi-domains pre-dimensioning (architecture definition).
• SP4 PEPS CEM & M CEM – Electro-magnetic compatibility.
• SP6 ELEC3D – 3D integrated Design.
• SP7 eSPACE – Interconnection between Electricity & Electronics.
• SP8 BADOI – Database for Material definition and behavior identification.
The design process of 3 main mechatronical products has been detailed and all difficulties or issues have been identified (use cases) in order to define the needs for the
new tool generation.
We propose to build a common software platform able to manage a continuum of data
for the global mechatronical design process, including the different steps of modeling:
requirement, functional, logical, physical design and a global 3D view supporting all
complex simulation disciplines.
After the phase 2, the Solution will provide a single data referential to ensure there is
no replication of data. This is a key starting point to guarantee a global collaborative tool.
• Challenges for Automotive
Industry:
- Increase by 30% to 50% the
efficiency of our designers.
- Improve the quality of the
complex products by a factor 5 to 10.
- Speed up the process of design and simulation to promot faster innovations.
- Allow our engineers to focus on tasks with high added value.
• Challenges for Software Editors
- Take position as a leader on a market which presents a potential of 20 billions
Euros within next 10 years.
• Regional and National stakes:
- Contribute to set up a pole of excellence on Mechatronics within the Region.
- Create a know-How reusable in other sectors of the industry
CONTACT
Denis BARBIER
VALEO
+33 (0)1 40 55 21 84
[email protected]
PARTNERS
Large companies:
ALTAIR DEVELOPMENT,
CONTINENTAL AUTOMOTIVE,
DASSAULT SYSTEMES, EADS,
LEONI, LIGERON® SONOVISION
ITEP, RENAULT SAFRAN,
SCHNEIDER ELECTRIC,
THALES, TOSHIBA SCHNEIDER,
VALEO
ALTAIR ENGINEERING
SMEs:
CADLM, CEDRAT,
SHERPA ENGINEERING
AMPERE (ECOLE CENTRALE
LYON), ARMINES, CNRT BASSE
NORMANDIE, ENSEA, ESTACA,
G2ELAB (ENSE3), IRSEEM
ESIGELEC, LGEP, LNE, ONERA,
SATIE (ENS CACHAN), SUPELEC,
SUPMECA, UVSQ
PROJECT DATA
Coordinator:
VALEO
Start date:
November 2007
Duration:
22 months
Global budget (M2):
11.8
Funding (M2):
4.8
Related systematic projects):
CSDL, O2M P2, PCS
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Outil de Modélisation et
de conception Mécatronique
COMPLETED
PROJECT
phase 2
O2M develops a new generation of tools for designing mechatronical products, especially for automotive applications. All process levels are addressed: "pre-dimensioning", integrated design, multi-physic simulation and validation.
◗ Phase 1: business needs (170 use cases) and functional specifications definition.
◗ Phase 2: focus on the delivery of prototypes and their validation
The project has led to the implementation of a demonstrator. The scenario of an EV powertrain
system design has been successfully implemented. This collaborative platform is developed
with DASSAULT SYSTEMES and
other software vendors like CADLM,
CEDRAT, ALTAIR and SAMTECH. It
opens the way to collaborative work
on mechatronics products in the automotive industry based on methodologies from CONTINENTAL, LEONI,
RENAULT and VALEO.
With a strong involvement of laboratories like IRSEEM, LNE, SUPMECA,
methodologies, models and testbeds have been developed on topics
such as materials or electromagnetic compatibility.
◗ Publications: (among 14 theses and 55 articles)
• Modélisation et simulation de composants électroniques pour les systèmes mécatroniques, Y. Le
Floch, D. Baudry, F. Duval, M. Bensetti, C. Gautier, B. Revol, J. Ben Hadj Slama, C. Vollaire, E.
Clavel, in Proc. ITT’09, Paris, France, October 2009
• EEE Transactions on Magnetics 46, 8 (2010) pp 2892-2898,"EMC Modeling of an Industrial Variable
Speed Drive With an Adapted PEEC Method",Vincent Ardon, Jérémie Aimé, Olivier Chadebec, Edith
Clavel, Jean-Michel Guichon, Enrico Vialardi, 08/2010.
• EMC Modeling of an Industrial Variable Speed Drive With an Adapted PEEC Method, Vincent Ardon,
Jérémie Aime, Olivier Chadebec, Edith Clavel, Jean Michel Guichon, and Enrico Vialardi, IEEE
TRANSACTIONS ON MAGNETICS, VOL. 46, NO. 8, AUGUST 2010.
• DASSAULT SYSTEMES: Evolution of the V6 platform PLM 2.0 for mechatronics, integration of
electrical data in 3D tools.
• ALTAIR: optimization of performances and additional features for new domains.
• CADLM: Algorithms for optimization of product design.
• CEDRAT: strong improvement of InCa3D and Portunus.
• CNRT, LNE, IRSEEM: development of new testbeds.
◗ Job creation:
• 50 jobs maintained or created during the project (More than 20 permanent contracts).
• Creation of 23 permanent jobs planned in addition.
CEDRAT has developed its offer for the EMC market, the connexion with the platform is an opportunity for a better integration within the R&D Information Systems. The project also allowed
CEDRAT to solve a critical and strategic issue for its own development. CADLM has developed
methodologies for the optimization of the design and is in a better position to address the automotive market. CONTINENTAL, LEONI, RENAULT and VALEO have optimized their design
process; tools are now available to avoid a comeback to paper-based tasks; methodologies for
optimization of products (performances and robustness) have been improved. An "ecosystem"
has been built with small companies like EIRIS Conseil, Sherpa Engineering and CADLM. SUPMECA is in a position to develop new research projects in aeronautics and aerospace.
CONTACT
Denis BARBIER
VALEO
+33 (0)1 40 55 21 84
[email protected]
Daniel MARSON
DASSAULT SYSTEMES
+33 (0)1 61 62 75 63
[email protected]
PARTNERS
Large companies:
CONTINENTAL, DASSAULT
SYSTEMES, LEONI, RENAULT,
SCHNEIDER, THALES, VALEO
ALTAIR
SMEs:
CADLM, CEDRAT, DPS,
EIRIS CONSEIL, LIGERON,
SAMTECH, SHERPA
ENGINEERING
AMPERE, ARMINES, CNRT,
ENSEA, ESTACA, G2ELAB,
IRSEEM, LNE, SATIE, SUPELEC
LGEP, SUPMECA, UVSQ
PROJECT DATA
Coordinator:
VALEO, assisted by
DASSAULT SYSTEMS
Co-label:
MOV'EO
Call:
FUI8
Start date:
Septembre 2009
Duration:
20 months
Global budget (M2):
16.2
Funding (M2):
5.9
CSDL
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OASIS
Optimization of Addendum
Surfaces In Stamping
The Objective of "OASIS" project is to develop a software tool to simulate and optimize
the stamping process using hign limit elestiocity steel. This projet aims to reduce the
time needed by engineers to design stamping process lines for high performance steel.
Extending the use of such material in automotive applications will lead to fuel economy,
and thus meet new requirements in terms of carbon dioxide emissions .
ON GOING
PROJECT
CONTACT
Jacques DUYSENS
CS COMMUNICATION
& SYSTEMES
+33 (0)1 41 28 40 26
[email protected]
◗ New optimization tools using game thery and multilevel approach will be developed.
These developments will lead to optimzation tools that can be aplied to complex problems such as the use of new material or the the
dévelopment of innovative concepts for stamping process.
◗ The second innovation deals with the form deformation methods during the optimization
process. A method based on free form deformation and dynamic parametrization will be developed.
◗ The automatization of the parametric process
taking into account the stamping process constarints (fabrication constraints) can be considered as an innovation.
◗ All these developments will be linked and integrated to obtain a complete suite for the automatic simulation and optimization of complex
sheet forming process.
◗ Development and adaptation of optimization tools to complex stamping process.
◗ Automatization of parametric tools dedicated to stamping process.
◗ Development of a plateform based on free softawre tools and designed to the simulation of stamping process.
PARTNERS
Large companies:
ARCELOR MITTAL,
CS COMMUNICATION
& SYSTEMES, EDF, NECS
SMEs:
DELTACAD, EURODECISION
ASSOCATION LEONARD
DE VINCI, CNRS - DR18,
FCS DIGITEO/TRIANGLE DE
LA PHYSIQUE, INRIA SOPHIA
ANTIPOLIS MEDITERRANEE,
LABORATOIRE ROBERVAL
PROJECT DATA
Coordinator:
CS COMMUNICATION
& SYSTEMES
Co-label:
I-TRANS
Call:
FUI9
Start date:
January 2011
Duration:
36 months
Global budget (M2):
6.2
Funding (M2):
2.4
CSDL, EHPOC, IOLS,
OPENHPC, PCS, SCOS
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OCELLE
Outils Logiciels pour le processeur Cell
comme Exemple pour
les applications Embarquées
OCELLE aims at efficiently programming new manycores CPU such as the IBM Cell
while preserving software productivity. Regarding the embedded system domain, the
goal is to exploit the underlying computation power using together a model-based
approach and a low level code generation. Thus both SPMD parallelism at model level
and SIMD at language level are combined. Several application types (Monte Carlo,
image, dataflow and matrix computations) are addressed to cover embedded systems
domain. A particular focus is made on a radiotherapy application.
COMPLETED
PROJECT
CONTACT
Serge TISSOT
KONTRON MODULAR
COMPUTERS
+33 (0)4 98 16 33 56
[email protected]
PROJECT RESULTS
◗ Patents:
Patents: Dépôt APP / Cell_MPI : librairie d'encapsulation et d'abstraction pour le
transfert de données sur le Cell via passage de messages.
◗ Technologies:
SPEAR code generation, Cell_MPI, Assembly code optimizer.
◗ Publications:
"Parallelization Schemes for Memory Optimization on the Cell Processor: a case
study on the Harris Corner Detector", "XLR8: tool for optimisation and automatic parallelization on the Cell processor", "Data transfers aware programming on TLP based
architectures: application with the Cell BE" (3 Journals); "Programmation par
squelettes algorithmiques pour le processeur Cell", "Parallelization Strategies for
the Points of Interests Algorithm on the Cell Processor", "Parallélization Schemes for
Memory Optimization on the Cell Processor: A Case Study of Image Processing Algorithm" (3 Proceedings).
PARTNERS
Large companies:
KONTRON MODULAR
COMPUTERS SA,
THALES RESEARCH
& TECHNOLOGY
SMEs:
DOSISOFT
CEA LIST, IEF
PEAR Design Environment, Cell_MPI communication middleware.
PROJECT DATA
Start up creation; new position in market for several partners.
Coordinator:
KONTRON MODULAR
COMPUTERS
Call:
ANR2006
Start date:
December 2006
Duration:
31 months
Global budget (M2):
1.4
Funding (M2):
0.6
Ter@ops
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OLDP
On Line Digital Production
COMPLETED
PROJECT
Develop the basis of the first on line, web 2.0 type, services platform in Digital Production, in order to set up an advanced node of a future world wide network, supported by
hubs for extended enterprise. Provide to the french industrial community, and especially
the SME, a seamless process and tools to co-develop and co-monitor the production
chain on the extended enterprise scheme.
CONTACT
Bernard BOIME
+33 (0)1 46 97 32 42
[email protected]
◗ Deliver a first set of on line services enabling the design of the whole supply chain (process
editors, and resources and behaviour editors, tools for sheduling edition, etc.).
◗ Deliver an on line architecture on a 6 levels basis, enabling digital extended factory modelisation by simple combination
(on line generic components data
base, including behaviour models,
easily combined on line).
◗ Intregrate digital factory and real
world on line
• by managing various real events
that need to be exchange on line
with the digital factory;
• integrating haptic and/or motion
capture devices, providing a
realistic immersive environment
for real operator experimentation of the virtual model (use
case for instance: validate the ergonomy of an assembly station). Software modules
are developed in VIRTOOLS, and data defined in CATIA V6 (geometry, kynematics,
dynamics, etc.).
PARTNERS
Large companies:
DASSAULT AVIATION,
DASSAULT SYSTEMES,
ALTIS SEMICONDUCTOR, ILOG
SMEs:
INTERCIM, TROCHET
CEA LIST, IRISA, SUPMECA
PROJECT DATA
Coordinator:
Call:
FUI6
◗ Products:
Start date:
July 2009
Industrial softwares CATIA-DELMIA-3DVIA, MKM (virtual mannequin), ILOG, PERTINENCE
suite.
◗ Services:
1 dissemination platform under feasability evaluation.
On-line service for:
• digital production engineering;
• digital production experimentation;
• digital production/virtual reality integration;
• digital production/Manufacturing execution systems integration;
• collaborative database of digital production components.
New business model services around shared/owned software suites.
118
Duration:
18 months
Global budget (M2):
8.5
Funding (M2):
3
USINE NUMÉRIQUE 1 & 2
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OPARUS
Optimization and Parallelization
for Analysis and Reconstruction
of ultrasonic NDT
The project OPARUS "Optimization and Parallelization for Analysis and Reconstruction
of ultrasonic NDT" focuses on the development of modelling tools and treatments for
reconstruction of ultrasonic testing data. The objective of the project is to optimize the
performance of numerical algorithms and to extend significantly the actual limitations
on the use of accurate models for visualization, analysis and diagnosis. The kinds of
technology pointed are clearly oriented on multi-core processors and GPGPU, all
included in single "workstation". The developments are focused on applications
representative of industrial cases and industrial constraints. Project results will be
directly integrated in systems and software already operating in industrial environments.
◗ The three complementary systems involved are based on innovative reconstruction algorithms, simulation and signal processing.
◗ The entire procedure of control is covered and the expected progress relate both the
processings made during the acquisition and the calculations made in the post-analysis step.
ON GOING
PROJECT
CONTACT
Stéphane LE BERRE
CEA
+33 (0)1 69 08 66 03
[email protected]
PARTNERS
Large companies:
EADS - EDF
SMEs:
CAPS-ENTREPRISE, M2M
CEA - IEF
◗ Optimization will be apply to Acquisition systems M2M, CIVA simulation software, and
NDT-KIT diagnosis tools in order to adapt process control tools to new hardware configurations, particularly in terms of parallelization and use of dedicated processors
(GPGPU).
◗ Acquisition: optimizing data transfers for reconstruction algorithms, integration of
simulation algorithms and optimized reconstruction.
◗ Simulation and Processing: simulations and pre-processing for the acquisition with
the transfer to Multi2000 systems. Simulation and reconstruction for post-acquisition
data processing for analysis.
◗ Post-processing (NDT-kit): Reconstruction and image processing of data acquisition,
automated diagnosis.
PROJECT DATA
Coordinator:
CEA
Call:
ANR 2010
Start date:
October 2010
Duration:
36 months
Global budget (M2):
1.7
Funding (M2):
0.7
CORTEX3D, INDIAC, ONTRAC
◗ Kick off meeting (Octobre 2010).
◗ Specification of industrial use case.
◗ First analysis of algorithm for optimization.
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OPEN GPU
ON GOING
PROJECT
In the next five years, GPU power is expected to dramatically increase while maintaining
its unmatched performance / power consumption ratio. The Open GPU project aims to
build an OpenCL based Open Source platform to take advantage of the GPU assets in
industrial applications such as simulation, scientific computing, biology, defense,
security or applied mechanics. Open GPU will also serves as basis for the building of a
Paris region cluster federating high performance computing skills and actors.
CONTACT
WALLIX
+33 (0)1 53 42 12 90
[email protected]
To take advantage of the GPU performance targeting three main goals:
◗ Build a OpenCL based Open Source integrated platform;
◗ Industrialize hardware and software architectures allowing an optimized and balanced
use of both CPU and GPU in a Green IT perspective;
◗ Initiate and develop a high performance computing cluster based in the Paris Region
and committed to work worldwide.
PARTNERS
Large companies:
BULL, THALES RESEARCH
& TECHNOLOGY
ESI GROUP
SMEs:
AS+, ATEJI, CAPS ENTREPRISE,
HPC PROJECT, NUMTECH,
TERATEC, WALLIX GROUPE IF
RESEARCH
ARMINES PARIS, CEA DAM,
CEA SACLAY, DIGITEO,
INRIA SACLAY, UNIVERSITE
EVRY VAL D'ESSONNE,
CURIE PARIS 6
PROJECT DATA
Coordinator:
WALLIX
Co-label:
CAP DIGITAL
Call:
FUI9
Start date:
March 2010
Duration:
24 months
Global budget (M2):
13.7
Funding (M2):
5.3
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Open HPC
COMPLETED
PROJECT
Simulation and High Performance Computing are a strategic stake for the competitiveness.
Both for Industry and Research one of the key elements of the HPC chain is application
software. It has to be accessible to all the actors of the market, especially for the small and
medium-sized firms. Users ask for global software solutions on HPC architecture, mixing
both free and commercial software. In the context of this project, Open Source software will
be improved in term of quality, interoperability and performance. These developments
have to be structured and connected in order to create a coherent software platform, in
connexion with other initiatives such as the Complex System Design Lab CSDL.
CONTACT
PARTNERS
Open HPC aims at building a coherent, interoperable and accessible HPC software platform addressing both commercial and Open Source software. A strong implication of
compagnies like ESI Group, Digiteo Scilab, C-S SI, CSTB and Logilab working together
confirms the way choosen by the project. The parallelisation and the adaptation of computing tools are a necessary step forward the building of the Open HPC software platform. Then, in order to reach the goals a focus on the process management of the whole
computing chain is done.
Jacques DUYSENS
CS
+33 (0)1 41 28 40 26
[email protected]
Large companies:
CS, EDF, NECS
ESI GROUP
SMEs:
DISTENE, LOGILAB, OXALYA,
TERATEC
CEA/DEN, CSTB,
DIGITEO SCILAB, ONERA
◗ Products:
The virtual Open HPC platform is made of several Open Source and Commercial
products. For exemple the Logilab company launched an open source case study
management tool. This Internet tool can gather the whole knowledge on a study case
linked to the solver datamanager.
ESI Group worked with CS-SI and the CSTB in order to increase and adapt its process
manager VDot to the building market.
◗ Services:
The CSTB worked on simulation with real experiment comparison. So the CSTB used
and increased different solvers developed in IOLS in order to run simulation at different
scale (city quarter, bridge, anchorage…).
Based on the result of the project, a business plan on the Building Market is in discussion between the Open HPC partners.
PROJECT DATA
Coordinator:
CS
Call:
FUI6
Start date:
January 2009
Duration:
18 months
Global budget (M2):
3.6
Funding (M2):
1.7
CSDL, EHPOC, IOLS, MOBIL,
OPUS, OSCOS
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OPSIM
OPtimisation de SIMulations
pour la conception
Numerical simulation, optimization and robust design techniques become a prerequisite
for complex systems design as ground vehicles. The mass is a major constraint when limiting CO2 emissions is a challenge. Reducing the mass has to be done considering the
service to provide the customer (safety, acoustic, …). Optimization techniques is a way of
dimensionning innovation with the best trade-off between cost , mass and performance.
In order to do so, OPSIM is organized around 3 main topics : numerical simulation quality improvement (soft efficiency, precision of finite elements models), high performance computing, optimization and robust design tools.
Results have been applied on 4 studies of synthesis and innovation for ALSTOM and
RENAULT industrial projets.
◗ Increase of PAM-CRASH speedup and global performance (reduce by 20% on RENAULT
midsize car model).
◗ Precision improvement of crash model: include stamping properties and improve the numerical spot weld behavior.
◗ Development of news multicriteria optimisation tools (for example, genetic algorithms NSGAII and Electre for high dimension multicriteria decision aid) and integration in RENAULT
optimization toolbox ALTERNOVA.
◗ Improvement of the RENAULT global optimization tool for mass saving on the
car-body, demonstation on a RENAULT
case-study (multi-physics optimization
with more than 200 parameters).
COMPLETED
PROJECT
CONTACT
Marie-Maud CHATILLON
RENAULT
+33 (0)1 76 85 13 84
marie-maud.chatillon
@renault.com
PARTNERS
Large companies:
ALSTOM, BULL, RENAULT
ESI
SMEs:
EURODECISION
ECOLE CENTRALE DE LYON,
EC LILLE, UNIVERSITE DE
VERSAILLES SAINT-QUENTINEN-YVELINES
◗ New optimization tool for robut design
in crash analysis, demonstration on a
RENAULT case-study.
◗ Publications: 11
• "Optimisation pour la conception de produits par simulations numériques: Application à une étude
de synthèse RENAULT", 11e Congrès de la Société Française de Recherche Opérationnelle et d’Aide
à la Décision, ROADEF 2010, Toulouse, Février 24-26.
• "Optimisation pour la conception de produits par simulations numériques : problème d’optimisation
multicritère de grande dimension" ,11e Congrès de la SFRO et d’Aide à la Décision, ROADEF 2010,
Toulouse, Février 24-26.
• "Particle Swarm Optimization Algorithm with Space Partitioning for Many-Objective Optimization“, accepté
à la conférence Meta10 « International Conference on Metaheuristics and Nature Inspired Computing ».
• An improved version of PAM-CRASH for ESI customers.
• An offer of "HPC on demand" proposed by BULL.
• An improved toolbox ALTERNOVA with new functionnalities.
◗ Job creation:
EURODECISION Stability of the team (7 persons). Sales and marketing: +1 person during this 3 years.
• ALTERNOVA is the toolbox developped by EURODECISION for RENAULT, enabling an optimisation workflow in the product design process.
• The signature in January 2011 of an important cooperation contract between RENAULT and
EURODECISION. This contract is strategic for EURODECISON enabling the SME to sell to new
clients licences and services exploiting ALTERNOVA. The contract is also important for RENAULT in order to maintain viability of the toolbox in the long term.
Exploitation of OPSIM results (Alternova toolbox or some components such as Electre or NSGAII ) is also
planned in other EURODECISION activities than the product optimisation design one. In this case the
new products will participate to the goblal growth of EURODECISION (15%-20% per year in average).
122
PROJECT DATA
Coordinator:
RENAULT
Call:
FUI5
Start date:
September 2008
Duration:
24 months
Global budget (M2):
4.6
Funding (M2):
1.6
ACTIVOPT - RODIN (EN COURS
DE LABELLISATION)
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OPTIDIS
Optimisation d'un code de
dynamique des dislocations
◗ The materials used in the nuclear industry undergo various and complex constraints.
Modeling efforts offers the opportunity to understand the mechanisms leading to the
ageing of these materials.
◗ Dislocations are linear defects which are quite abundant in crystalline metals. They
are responsible for their plastic behavior. Irradiation induced defects strongly interact with dislocations, therefore modifying the mechanical properties of these materials. Understanding these mechanisms is therefore crucial.
ON GOING
PROJECT
CONTACT
Laurent DUPUY
CEA / DEN
+33 (0)1 69 08 53 45
[email protected]
◗ Dislocation dynamics is a simulation technique suite to follow the motion of a large
number of dislocations along time. Taking full advantage of HPC is critically needed
to simulate to simulate representative volume elements. The goal of OPTIDIS, is to
optimize such a code within a team including CEA, INRIA and CNRS.
PARTNERS
CEA/DEN, HIEPACS, INP,
INRIA, UNIVERSITÉ PARIS-EST
CRÉTEIL
◗ The goal of OPTIDIS is to
optimize a dislocation dynamics code named NUMODIS enabling large scale
simulations of scientific interest. This goal requires
the development of three
specific algorithms:
• optimized calculation of
the interactions between
dislocations using multiThe interaction between a dislocation and a radiationpole approach;
• optimized linear and non- induced loop.
linear solvers taking full
advantage of the topological structure of dislocations;
• development of new load-balancing strategies as the spatial distribution of dislocations tends to be extremely heterogeneous. Each of these three tasks will be addressed using a combination of advanced High-Performance Computation schemes
(MPI and POSIX threads) and the development of new algorithms. As a final "grand
challenge", NUMODIS will be used to address a problem of major scientific and industrial interest: the channeling of deformation in irradiated zirconium cladding.
PROJECT DATA
Coordinator:
CEA/DEN
Call:
ANR
Start date:
October 2010
Duration:
48 months
Global budget (M2):
1.5
Funding (M2):
0.4
This project started 6 months ago. The first meetings were held to define more precisely
the different tasks. Several trainees and one PhD student were recruited by the different
partners.
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Open source Platform for Uncertainty
treatment in Simulation
The goal of OPUS project is to create and sustain an activity about generic uncertainty
treatment by properly structuring, within an integrated open-source platform, prototype
software contributions and applied research works.
The OPUS developments main keywords are:
◗
◗
◗
◗
◗
◗
◗
Genericity: they are designed to comply with a large set of industrial problems.
User friendliness: they are designed for engineering purposes.
CONTACT
Alberto PASANISI
EDF-R&D
+33 (0)1 30 87 80 85
[email protected]
High Performance: they are designed to cope with complex systems simulators.
Advanced methods: they will provide to users innovative R&D methods.
Open Source: the best way for sharing and improving them.
Interoperability: they aim to work with any computer code.
Durable: they are designed together with a durable business model.
PARTNERS
Large companies:
CEA, DASSAULT AVIATION,
EADS IW, EDF-R&D
SMEs:
SOFTIA
The OPUS project approach is based on a "loop" that starts from real industrial usecases, arising from different business areas (energy production, nuclear safety, aerospace). The complex mathematical and numerical treatments to be performed within
these use-cases let rise the need
for advanced methods, coming from
academic and scientific research.
Once these methods developed and
tested, they are integrated and perpetuated inside the reference software platform, to be reused in other
similar industrial studies.
The advanced methods studied
within the OPUS project cover a wide
set of problems both industrial and
scientific: the use of "meta-models"
to replace time-consuming computer codes, the sensitivity analysis
of uncertainty sources, the statistical modeling of variables that can
not be directly observed, the coupling of multi-physics and multi-scale computational
codes, the estimation of very rare quantiles, corresponding to low probability events, and
robust real-time implementation of partial derivatives differential equations.
INRIA, SUPELEC,
UNIVERSITE JOSEPH
FOURNIER GRENOBLE 1,
UNIVERSITE PARIS 7
◗ The Second Annual Review has been held in April 2010.
◗ Three workshops have been held about the following topics: uncertainty analysis and
quantification, statistical learning and model selection, spectral methods and polynomial chaos.
◗ Prototype codes have been applied to the use-cases provided by industrial partners.
◗ Different levels of contribution to the OPUS "platform" have been specified, depending
on the integration level within the reference software platform (Open TURNS).
124
ON GOING
PROJECT
PROJECT DATA
Coordinator:
EDF-R&D
Call:
ANR
Start date:
April 2008
Duration:
36 months
Global budget (M2):
2.2
Funding (M2):
1
EHPOC, CSDL
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PANDA
Parallelism And Distribution Analysis
ON GOING
PROJECT
The validation of concurrent and distributed programs is difficult because the number
of accessible states is too large to be enumerated, and even the number of control
points, on which abstract collecting semantics are based, explodes. This is due to the
great number of distinct scheduling of actions in legal executions.
The objective of this project is to develop theories and tools allowing for tackling this
combinatorial explosion, in order to validate concurrent and distributed programs in an
efficient manner.
We will consider various paradigms of computation and interaction, encompassing most
of the classical ones, as well as more recent ones such as the ones found in Singularity
for instance, which will provide a good "test case" for the formal semantics and methods
the project is aiming at developing.
CONTACT
Catuscia PALAMIDESSI
INRIA
+33 (0)1 69 33 41 17
[email protected]
PARTNERS
The main objectives of the project are as follows:
◗ Give the theoretical tools for comparing the models
for concurrent programs at hand, and in particular,
the new ones such as the geometric models for
concurrency.
Large companies:
AIRBUS
CEA, INRIA,
UNIVERSITE PARIS NORD,
UNIVERSITE DE LA
MEDITERRANEE
◗ Compare several rising models to more classical
ones:
• Geometric models vs Transition Systems,
Mazurkiewicz traces and Event structures;
• Models based on higher order categories vs
Rewriting systems, Event structures, and Mazurkiewicz traces.
◗ Bring together models for concurrency completing each other so we can take into
account various aspects of parallelism. In particular, we think the interaction
between spatial/separation logics and geometric models will raise breakthrough in
understanding concurrent tasks behaviour.
◗ Implement a common platform for the static analysis of concurrent programs, based
on the existing ALCOOL analyzer (developed by CEA LIST). In particular we wish to prove
the adequacy of our approach on a representative piece of code (provided by Airbus).
◗ Develop a comprehensive framework for probabilistic concurrent systems that would
apply to several models of concurrency; understand how usual concepts and tools
from probability theory such as limit theorems apply to those models. A challenging
part is to deal with asynchrony.
PROJECT DATA
Coordinator:
INRIA
Call:
ANR
Start date:
October 2009
Duration:
36 months
Global budget (M2):
2.1
Funding (M2):
0.6
CPP
◗ Study of the category of future-paths components, providing a geometric interpretation
for concurrent processes.
◗ Study of a notion of distance between probabilistic systems and continuous properties
in the metric.
◗ A general construction to associate an event structure to a rewriting system.
◗ Development of model-cheching techniques to verify properties of probabilistic systems.
◗ Release of the "heaphop" tool, a proof-checker for concurrent heap-manipulating
programs using Separation Logic.
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PARMAT
PARallélisation pour
la simuilation des matériaux
The european project PERFECT has developed a computation chain for the simulation
of the ageing under neutronic irradiation of the alloys (steel mainly) involved in materials
of the nuclear reactors. This chain is made of seven codes, the accuracy of each of them
depends on the size of the simulated systems. The goal of the project PARMAT is to
optimize three codes (ab initio, Monte Carlo, chemical kinetics) in the chain in order to
prepare for the future petaflopic architecture made of some hundreds of thousands of
cores, as prefigured by the IBM BlueGene machines. Then, the size of the simulated
system will be satisfying.
CONTACT
PARTNERS
◗ Ab initio simulations: semi-empirical models of nanotubes with up to 10^5 carbon
atoms can be simulated with the efficient use of hundreds of processors.
◗ 3D mesoscale simulations of irradiation damage: kinetic Monte-Carlo simulations
can be efficiently distributed over a dozen processors.
◗ Spatially homogenized model: the dynamic of cluster defects containing self-defects
and up to 100 solute atoms can be simulated over a long period (0.5 dpa) in half a
day, which represents a tenfold increase in the maximum number of solute atoms.
◗ Publications:
• "Analysis of a Quadratic Programming Decomposition Algorithm", paper published
in SIAM Journal of Numerical Analysis
• "Domain Decomposition for Electronic Structure Computations", communication
in ParCo 07, published in the proceedings.
• Ab initio simulations : a new O(N) algorithm has been implemented in a parallel version. Weak and strong scalability up to thousand processors have been proved on an
IBM Blue Gene/L architectures. This version is limited to nanotube-type systems.
• 3D mesoscale simulations of irradiation damage: efficiency of kinetic Monte-Carlo
integration has been significantly improved with or without the resort to multiprocessors. Parallelisation over a dozen processor via spatial domain decomposition has revealed efficient.
• Spatially homogenized model: efficiency of cluster dynamics has also been dramatically improved thanks to the use of classical techniques of parallelisation of
linear systems (Schur complement). A new way of simulating cluster dynamics has
been developped, with a stochastic treatment of the biggest clusters. This method
is a first step towards integration of models with highly complex defects containing
more than one solute specie.
126
COMPLETED
PROJECT
Guy BENCTEUX
EDF - R&D
+33 (0)1 47 65 30 88
[email protected]
Large companies:
CEA, EDF
SMEs:
CAPS-ENTREPRISE
CNRS-UMET, ENPC-CERMICS
PROJECT DATA
Coordinator:
EDF - R&D
Call:
ANR
Start date:
January 2007
Duration:
48 months
Global budget (M2):
1.3
Funding (M2):
0.5
SHPCO2 (SYSTEMS DESIGN
AND DEVELOPMENT TOOLS)
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PARSEC
Production d'Applications Réparties
Sûres pour l'Embarqué Critique
The PARSEC Project aims at providing development tools for critical real-time distributed
systems requiring certification according to the most stringent standards such as DO178B (avionics), IEC 61508 (transportation) or Common Criteria for Information Technology
Security Evaluation. The approach proposed by PARSEC provides an integrated toolset
that helps software engineers to meet the requirements associated to the certification of
critical embedded software.
ON GOING
PROJECT
CONTACT
Frédéric GILLIERS
THALES
+33 (0)1 69 41 56 10
[email protected]
PARTNERS
PARSEC will provide an innovative
integrated process based on
Model Driven Engineering techniques adapted to the implementation of critical software.
Large companies:
ALSTOM, THALES
SMEs:
ELLIDISS, OPENWIDE,
SYSTEREL
◗ The first step of the process is
the reconciliation of the specification process which is a top
down approach, and the component-based approach which is a
bottom up approach that emphasizes the reuse of existing
software components. This will
provide a means to obtain both
a validated specification of the
system and the corresponding
component oriented design.
CEA, INRIA,
TELECOM PARISTECH
PROJECT DATA
◗ The second step is to obtain a deterministic implementation of this design by developing specific code generation tools providing a synchronous execution of the distributed system, deployed on a minimum operating system and generated according
to the exact list of required functionalities (therefore eliminating dead code that would
forbid certification of the system).
◗ The last step is the integration of new code analysis tools allowing the generation of test
case scenarios in order to check that the observed behavior matches the specification.
Coordinator:
THALES
Call:
FUI8
Start date:
October 2009
Duration:
40 months
Global budget (M2):
3.4
The project will provide a tooled development process for the development of critical
distributed embedded systems. The MyCCM-HI component framework will be adapted
to support distributed, deterministic execution platforms (SynDEx and Ocarina). The
SynDEx tool will be extended to support partitioned (ARINC 653) execution environments
and time consuming mode management. The Ocarina tool will be adapted to generate
synchronous statically scheduled code.
Funding (M2):
1.5
FLEX-EWARE
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PErformances GAranties pour les
Systèmes Embarqués communicants
Modern embedded systems are made of dozens of interconnected computers, each
one handling hundreds or thousands of data flows. The delay introduced by the network
(WCTT, Worst Case Traversal Time) must be bounded, with scalable formal methods.
Network Calculus is such a method, but it makes to pessimistic over-evaluation, leading
to an over-dimensioning of the network which involves extra weight and power
consumption. The aim of the PEGASE project is to improve the theory of Network
Calculus (tighter bounds, help for network design, modeling of new technologies), and
to transfer the result to the industry.
ON GOING
PROJECT
CONTACT
Marc BOYER
ONERA
+33 (0)5 62 25 26 36
[email protected]
http://sites.onera.fr/pegase
PARTNERS
The industrial objectives are:
Large companies:
THALES ALENIA SPACE
FRANCE, THALES AVIONICS,
THALES RESEARCH
& TECHNOLOGIES
◗ simplify the design of such networks (dimensioning, routing)
to reduce conception costs,
◗ tighten the computed worst
end to end delay to reduce
over-provisioning which leads
to extra weight and power consumption,
SMEs:
REAL TIME AT WORK
ENS, INRIA GRENOBLE,
LABORATOIRE DE
L’INFORMATIQUE DU
PARALLELISME, ONERA
◗ have available some analysis
tools to facilitate the validation
of critical real time embedded
data networks transporting different classes of traffic.
PROJECT DATA
From the theoretical point of view, a lot of results have been obtained, in particular on
the classification of some theoretical related models, or the modeling of Wormhole
routing. From the industrial transfert point of view, the development of the software
prototype offers to the community a (min,plus) interpreter, and a first version of the
AFDX analyser will be released in june 2011.
More details can be obtained on the WEB site.
Coordinator:
ONERA
Co-label:
AEROSPACE VALLEY
Call:
ANR
Start date:
October 2009
Duration:
36 months
Global budget (M2):
2
Funding (M2):
0.8
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PHERMA
Parallel Heterogeneous Energy efficient
Real-time Multiprocessor Architecture
The PHERMA project aims to reconsider the control scheme (RTOS) in a MPSOC
architecture:
◗ To propose an efficient Sw/Hw architecture model with deterministic behaviors in a
way to guaranty maximum response times.
◗ To adapt and ease the schedulability analysis on the basis of this architectural model
to hold an “a priori” verification of task deadline meeting.
COMPLETED
PROJECT
CONTACT
Karim BEN CHEHIDA
CEA LIST
+33 (0)1 69 08 86 45
[email protected]
◗ To propose methods for offline and online optimization of power consumption considering this architectural model.
◗ Development of new online and offline power management techniques (DVFS and
DPM).
PARTNERS
Large companies:
CEA LIST, IRCCYN, LEAT
◗ Development of a multiprocessor
execution simulator (STORM:
http://storm.rts-software.org)
under a creative commons licence.
◗ The design of a HW power manager coupled to the scheduler of
the SCMP platform and its demonstration on an Eve FPGA emulation
board.
PROJECT DATA
Coordinator:
CEA LIST
◗ The integration of new scheduling
Co-label:
SCS
and power management policies
coupled to Linux SMP.
Call:
ANR
Start date:
January 2007
◗ Publications:
Duration:
42 months
4 publications. The 5 most important are:
• S. Bilavarn, C. Belleudy, M. Auguin, T. Dupont, A-M. Fouilliart: "Multicore Implementation of H.264 Decoder with Power Management Considerations", 11th Euromicro
Conference on Digital System Design, DSD 2008, Parma, Italy, 03/09/08-05/09/08.
• K. Ben Chehida, R. David, F. Thabet, A.M. Déplanche, Y. Trinquet, R. Urunuela, M.K.
Bhatti, C. Belleudy, M. Auguin, F. Broekaert, V. Seignole, A.M. Fouillart: "Une approche globale de gestion de la consommation au niveau système pour des architectures MPSoC temps réel hétérogènes" 8èmes Journées Faible Tension Faible
Consommation, FTFC 2009, Neuchâtel, Suisse, 03/06/09-05/06/09.
• M.K. Bhatti, F. Muhammad, C. Belleudy, M. Auguin: "Improving resource utilization under
EDF-based mixed scheduling in multiprocessor real-time systems" 16th IFIP/IEEE Int.
Conf. on Very Large Scale Integration, VLSI-SOC'2008, Rhodes, Grèce, 13/10/08-15/10/08.
• D. Aoun, A.M. Déplanche, Y. Trinquet: "Pfair scheduling improvement to reduce interprocessor migrations" 16th Int. Conf. on Real-Time and Network Systems,
RTNS'08, Rennes, France, 16/10/08-17/10/08.
• M. Bhatti, F. Muhammad, C. Belleudy, M. Auguin, O. Mbarek: "Assertive dynamic power
management (AsDPM) strategy for globally scheduled real-time multiprocessor systems" 19th Int. Workshop on Power and Timing Modeling, Optimization and Simulation on Digital System Design, PATMOS 2009, Delft, Pays-Bas, 09/09/09-11/09/09.
Global budget (M2):
1.8
Funding (M2):
0.7
GRECO
◗ Patents:
Patent n°2930355: Procédé de gestion de la consommation d'énergie pour les systèmes multiprocesseurs. (a PCT extention to Europe, USA and Japan is ongoing).
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Data analytics
POPS
Peta Operations Per Second
COMPLETED
PROJECT
Design and develop data processing systems suited to the largest spectrum of High
Performance Computing applications, targeting the Petaflops range.
Anticipate the programming tools and features needed to obtain efficient applications
in such systems.
CONTACT
Jean-François LEMERRE
BULL SAS
+33 (0)1 30 80 72 66
[email protected]
◗ Hardware architecture, integration and performances > technological options >
prototype.
◗ Basic tools (OS, libraries,…) + performance improvement tools (threads management,
adaptive optimisation).
◗ Applications: simulation codes, management of large databases, multimedia data
processing (life science, entertainment).
PARTNERS
Large companies:
BULL, CS, DASSAULT AVIATION,
EDF
ESI
SMEs:
CAPS ENTREPRISE,
EURODECISION, MEDIT,
RESONATE MP4
CEA, ECOLE CENTRALE PARIS,
IFP, INRIA,INT-ARTEMIS,
UNIVERSITE D'EVRY,
UNIVERSITE PARIS SUD 11,
UVSQ
PROJECT DATA
Coordinator:
BULL SAS
◗ Products:
Call:
FUI3
Optimization of codes from Dassault, ESI, Eurodecision, EDF; Bull petaflopic architecture and tools; Astek codlet finder by CAPS.
◗ Services:
VOD transcoding service offer by Resonate MP4; intensive computing services on
demand by Bull; Creation of an Intensive computing Master by UVSQ and ECP; …
◗ Publications:
About 50 publications, mainly written by the laboratories.
Big Video challenge (finding 1video in 100,000 hours in 10 s; realtime video transcoding; crosslanguage research of multimedia content; protein visualisation.
◗ Job creation:
About 30 jobs created, on which 3: in start-up Infinite Web Media.
Extrem computing Business unit created by Bull for the HPC market.
130
Start date:
September 2007
Duration:
23 months
Global budget (M2):
13.5
Funding (M2):
5
CARRIOCAS, EHPOC, IOLS,
MEDIATIC, MULTIVAL,
MUSCLE, NUMASIS, PARA,
ParMA, SAPHIR, TELEDOS
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PPR
Plateforme de Prototypage Rapide
ON GOING
PROJECT
This project aims at providing a complete software/hardware solution for rapid
prototyping of large integrated circuits (SoC and ASIC). The provided solution will
accelerate productivity and reduce the time to market of complex circuits development.
The main product corresponds to a board design based on Xilinx FPGAs which can be
customized depending on applications specification. In addition, WASGA suite tools
(FLEXRAS Technologies) will be provided for netlists partitioning and routing. ADACSYS
tools will be used for functional debugging and verification. REFLEX CES will design a
multi-FPGA board as a demonstrator.
CONTACT
PARTNERS
This project proposes:
◗ To realize a performant prototyping system based on FPGA. This demonstrator will
use the latest FPGA technology with large logic capacity and high speed communication features.
◗ To develop a complete suite tool to map a design on multi-FPGA platform. WASGA
suite tool will allow designers to see a multiple FPGA platform as one large FPGA with
a standard flow of Synthesis, Place and Route. Partitioning and inter-chip routing will
be automated and transparent for the designers thanks to WASGA. To implement such
features, WASGA will integrate an advanced technology of partitioning that optimizes
inter-FPGA communications and improves the performances of the prototyping.
◗ To use ADACSYS verification platform. This technology brings crucial flexibility, efficiency and simplicity to the development and verification cycles so that products reach
the market on time and with high quality standards.
Zied MARRAKCHI
FLEXRAS TECHNOLOGIES
+33 (0)1 49 22 00 23
[email protected]
SMEs:
ADACSYS, FLEXRAS
TECHNOLOGIES, REFLEX-CES
LIP6
PROJECT DATA
Coordinator:
FLEXRAS TECHNOLOGIES
Call:
FEDER3
Start date:
April 2011
The PPR project started in April 2011. The duration will be two years. The academic
partner LIP6 will recruit a PhD student then we will begin the specification phase.
Duration:
24 months
Global budget (M2):
1.3
Funding (M2):
0.7
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Plate forme pour la Robotique
Organisant les Transferts entre
Utilisateurs et Scientifiques
The goal of the PROTEUS project is to create a portal and associated tools dedicated to
the French robotic community as embodied by the GDR Robotique and its associated
partners' club. This will facilitate exchanges (knowledge, algorithms, …) inside and
outside the community. The software tooling tool is of utmost importance to tackle with
'robotic field' concerns and 'software engineering' aspects simultaneously and to allow
as easy as possible exchanges.
Challenges will be organised in order to validate the portal concept and disseminate its
existence throughout the community. At the end of the project this portal will become the
responsibility of the GDR Robotique in order to allow its existence after the end of the project.
Public website: http://www.anr-proteus.fr
Such an innovative platform will allow the members of the community to:
◗ Identify problems. These problems would be delivered as specifications or simulations
including models and eventually real data (could be compared to the Robocup approach);
◗ Design solutions to the problems by creating architectures and algorithms with their
own environments and tools;
◗ Integrate their solutions into the corresponding simulations, in order to verify the
consistency of the solutions with respect to the problems;
◗ Assess the solution into its proper environment starting from the integrated simulation;
◗ Publish and Compare solutions through a public area the problems and their solu-
CONTACT
Bruno PATIN
DASSAULT AVIATION
+33 (0)1 47 11 58 54
bruno.patin@dassault-aviation
.com
PARTNERS
Large companies:
DASSAULT AVIATION, THALES
TOSA, THALES TRT
ECA
SMEs:
GOSTAI, INTEMPORA
CEA, GREYC, INRIA, LASMEA,
LIP6, PRISME
tions, storing them in the PROTEUS database;
◗ Test solutions on real industrial robots, the interface of those robots being consistent
with the interfaces of the simulated robots as expressed in the validated simulations.
PROJECT DATA
OUTCOMES
Coordinator:
DASSAULT AVIATION
Shared products at the end of the project:
Co-label:
AEROSPACE VALLEY,
VIA-MECA,
◗ Ontologies;
◗ Robotic Domain Specific Language;
◗ Reference robotic scenario, that will
Call:
ANR
provide challenges;
Start date:
November 2009
◗ Set of tools associated;
◗ Testing products that could be the
Duration:
48 months
basis of a benchmark culture.
These products will be delivered through
the PROTEUS portal Status:
Global budget (M2):
5.4
◗ Ontologies almost produced;
◗ Platform defined and first internal ver-
Funding (M2):
2,1
sion to appear;
◗ Portal in its first embodiement.
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ON GOING
PROJECT
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PUMA
COMPLETED
PROJECT
The goal of the Puma project is to break the current wall between the product/process
design (PLM world - Product Lifecycle Management) and the shop floor production
(MES world - Manufacturing Execution System).
◗ On one hand, the objective is to transfer the know-how accumulated during the
design phases to the production, using the 3D as much as possible.
◗ On the other hand and in a symetrical way, the objective is to give a feedback of the
CONTACT
Yann D'ARAMON
INTERCIM
+33 (0)1 44 76 81 83
[email protected]
accumulated production and quality knowledge to the design: for instance, using an
as-built view of the final assembly or a report of unexpected events encountered
during the production.
PARTNERS
In partnership with Dassault Systemes:
◗ Specification of a common model for shop orders
Large companies:
DASSAULT SYSTEMES
SMEs:
INTERCIM
and production data.
◗ By integrating production data from the MES in a
3D view of the product or sub-product, it is possible
to provide a real-time as-built view of the assembly
or fabrication of a product (installed parts, parts on
hold, unavailable parts, etc.).
◗ By generating shop order data from the DS Process
Planning, it is possible to provide context-dependent 3D work instructions in the MES.
PROJECT DATA
Coordinator:
INTERCIM
Call:
OSEO
Start date:
April 2009
◗ Products:
Duration:
12 months
Production Unit Live Collaboration (3D as-built view of the product), Digital Work
Instructions Player (3D work instructions in the MES).
On-going with several customers.
Global budget (M2):
0.6
Funding (M2):
0.2
◗ Job creation: 2.
OLDP
On-going.
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QUICK-GPS
Génération automatique et
optimisation du tolérancement
fonctionnel des mécanismes
dans l'usine numérique
The problem of functional tolerancing of mechanisms has still not been well resolved
through taking into account geometrical part defects in three dimensions. The purpose is to
both optimize part specifications and maximize tolerances in order to reduce the costs of
products and design studies. This project will define or improve tolerancing methods in 3D by
demonstrators and industrial, cases-tests by the ways of:
• Translation of the functional needs in ISO & 3D tolerancing,
• Generation and solving of tolerance chain equations using the three-dimensional method,
• Optimization of tolerances in order to limit manufacturing cost,
• Use of statistic tolerancing in a 3D approach,
• Management of tolerancing through design, manufacturing and testing during products
lifecycle.
ON GOING
PROJECT
CONTACT
Marc DOUSSINAULT
SNECMA
+33 (0)1 60 59 91 40
[email protected]
PARTNERS
The main difficulties encountered focus on six points:
◗ The recognition of part shapes for the identification of
symmetry properties (with independent parameters being
the offset of each surface compared to the nominal initial
surface);
◗ The recognition of entities on parts and the mechanism to
implement tolerancing schemes or rules;
◗ The development of a tolerancing process authorized by designers, with three-dimensional transfer (one of the critical
points here is the assessment of uncertainties in the contacts between surfaces with defects,
especially for the hyperstatic system). The goal is to generate functional specifications in ISO;
◗ Generation of equations expressing the value of a tolerance chain result for the worst case
and for a statistical approach;
◗ Optimization of nominal dimensions and tolerances: The ultimate goal requires a system
to generate, for example, up to 1,000 equations and 2,000 unknowns for a gearbox (the
equations are piecewise linear or quadratic with the statistical approach). The unknowns
are the tolerances and specification offsets of each functional area compared to the initial
nominal model. In addition to the calculation problem itself, we must detect conflicting requirements, thus making the problem unsolvable for proposing a compromise. This step
must also provide the designer with a "dashboard" to visualize the result along with the
means to control the distribution of tolerances or negotiate compromises;
◗ The diversity of products and production resources, such as generic tolerancing, will undoubtedly not fulfill all needs. Each user will then be offered the ability to write custom
tolerancing patterns whose consistency and integration with the rest of the system would
then need to be ensured.
SMEs:
AMETRA, SOKARIS INGENIERIE,
TROCHET
LURPA ENS CACHAN, UTC
PROJECT DATA
Coordinator:
SNECMA
Co-label:
ASTECH
Call:
FUI7
Start date:
September 2009
Duration:
36 months
Global budget (M2):
4.3
Defining Functional tolerancing and manufacturing tolerancing three-dimensional methods:
◗ Development of demonstrators that contains the expertise and are able to test the functionalities required to support softwares of Computer-aided tolerancing, Optimization of
tolerances and Tolerances data management within industrial contexts.
◗ Application on case studies in design with a full application in production and inspection, or
with customers to evaluate the relevance and acceptance of this new tolerancing procedure
by all stakeholders in the product life cycle.
◗ Evaluations of the profitability of these new methodologies through identifying the areas of
use (benefits derived fromdesign studies, product quality, product costs and the entire
manufacturing and inspection cycle).
Funding (M2):
1.8
134
Large companies:
DASSAULT SYSTÈMES, EADS
INNOVATION WORKS,
RENAULT, SNECMA
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RADIOLA
Simulation Numérique de
la radiographie industrielle
pour le contrôle non destructif
Non Destructive Testing (NDT), involved in all sectors having important security issues
(power, transports, oil&gaz,…), aims at detecting, localizing and caracterizing potential
flaws in a given structure. Simulation is now commonly used in NDT as it permits to
efficiently contribute to the control methods design & optimization, their analysis, and
their qualification. Radiographic Testing (RT) is one of the major techniques in NDT.
The goal of the RADIOLA project was to federate the 3 french simulation codes in RT
(from CEA LETI, EDF R&D and INSA) in order to provide a unique software tool, leader
on the market. This module is integrated in the multitechnique platform CIVA
(Ultrasounds, Eddy Current, Radiography). This new product benefit from the feedback
of industrial users: SAFRAN and EDF.
COMPLETED
PROJECT
CONTACT
Vincent LECONTE
CEDRAT
+33 (0)4 76 90 50 45
[email protected]
PARTNERS
Large companies:
EDF, SAFRAN
3 main axis of development:
SMEs:
CEDRAT
◗ A single architecture whatever the source type ( X-ray or Gamma) allowing:
• Homogeneisation of possibilities;
• Access to all existing detector models;
• An easy maintenance for future evolutions.
CEA, INSA LYON
◗ Dramatic improvement of numerical performance:
• Selection of the best algorithms from the 3 existing codes for radiation computation;
• Deletion of redundancies;
• Multi-threaded calculation.
◗ New features for users:
• Improvement of measurement
and processing tools;
• Integration of a detectability
criteria;
• Increased user interactivity
by giving the possibility to
"re-run" fastly some configurations when some parameters changes (exposure time,
film,…).
PROJECT DATA
Coordinator:
EDF
Call:
ANR
Start date:
March 2008
Duration:
24 months
Global budget (M2):
1.3
Funding (M2):
0.5
◗ Products:
Civa 10.0 - module RT, released on the market in June 2010.
◗ Publications:
5 Publications in international NDT Conferences: "Simulation studies of radiographic
inspections with Civa", J. Tabary, P. Hugonnard, A. Schumm, R. Fernandez,
(COFREND 2008 and WCNDT 2008); "A proposed benchmark problem for scatter calculations in radiographic modelling”, G.-R. Jaenisch, C. Bellon, A. Schumm,
J. Tabary and Ph.Duvauchelle (QNDE2008), “Inspection of Complex Geometries using
radiographic simulation in CIVA”, R.Fernandez, A. Schumm (ICNDE 2009), “Radiographic Benchmark Problem 2009 - Scatter Calculations in Modeling”, G.-R.Jaenisch,
C. Bellon, A. Schumm, J. Tabary and Ph. Duvauchelle (QNDE 2009).
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REaching Petascale for advanced
fluid-structure DYNamics
The REPDYN project, bringing together CEA, EDF, ONERA, INRIA and LaMCoS from
INSA Lyon, aims at identifying and overcoming all algorithmic locks harming parallel
efficiency necessary to high scale computing in the framework of fast transient
dynamics involving structures and fluids in interaction. It also considers exploring
innovative solution procedures dedicated to most recent hardware, especially taking
into account multi-core computational nodes and GPUs into a multi-level parallel
approach. Algorithms and methods will be extensively tested and qualified using
EUROPLEXUS software, dedicated to this kind of analyses.
CONTACT
PARTNERS
Starting from a classical parallel framework dedicated to distributed memory clusters, scientific innovations are expected in two main areas: first, reaching high extensibility for large
scale parallel simulations involving models of differents kinds, both continuous (Finite Elements, Finite Volumes) or meshfree (SPH particles, discrete elements), with complex kinematic links (such as intermittent unilateral contact or fluid-structure links) handled exactly
by means of Lagrange Multipliers, and second, designing a multi-level parallel framework
able to benefit from most recent hardware composed of interconnected nodes, each representing a multi-core SMP architecture to which can be agregated one or several GPU(s) to
speed-up local solution. In the former area, finding a robust and efficient strategy to identify
coupled kinematic links, which may involve several distributed processes, and a solution
procedure to compute Lagrange
Multipliers that preserves global
extensibility, is difficult and mandatory. In the latter area, the research
fields mainly correspond to the
need for specific local parallel algorithms adapted to each kind of
models potentially interacting in a
simulation and for advanced loadbalancing strategies, possibly dynamic, at both local and global
level.
Vincent FAUCHER
CEA
+33 (0)1 69 08 40 18
[email protected]
Large companies:
EDF
CEA, ONERA, INRIA, LAMCOS
(UMR CNRS-INSA LYON),
LAMSID (UMR CEA-EDFCNRS)
PROJECT DATA
Coordinator:
CEA
Call:
ANR
Start date:
December 2009
Duration:
36 months
Global budget (M2):
1.6
Project started on December 1, 2009 and kick-off technical meeting occured on February 3,
2010. First parallel performance evaluation tasks have been launched to clearly locate
algorithmic locks using existing MPI approach, and a research program oriented to hybrid
parallelism (distributed nodes/local multiple cores/GPU) is being defined.
Funding (M2):
0.6
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ON GOING
PROJECT
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ROMMA
RObust Mechanical Models for Assemblies
ON GOING
PROJECT
The structural simulation of assemblies is initiating a new range of simulation models
forming the future of industrial needs as identified by aerospace and aircraft companies.
These new generations of simulation will help to improve robustness of design process
by allowing more detailed and representative models needed to estimate more accurate
design margins.
ROMMA project will contribute to develop tools, processes and mechanical behavior
models in order to speed up, automate and make robust the simulation phase of bolted
joints assembly. The ROMMA consortium (see below) aim at fully mastering each
simulation step of large structural assemblies: CAD model pre-processing, 3D model
idealisation and meshing, accurate joints behavioural modelling, simulation error
estimation (including parameter uncertainties) and physical validation.
CONTACT
Stéphane GUINARD
EADS
+33 (0)5 61 16 88 51
[email protected]
PARTNERS
The proposed approach consists in processing 3D digital mock-up of assemblies in a
systematic manner to work out simplified FE simulation models incorporating structural components (beams, plates, shells) connected together through dedicated connectors expressing joint behaviours. Starting from an enriched assembly CAD model
with technological and mechanical information capitalized, significant improvements
are expected regarding to the:
Large companies:
EADS
SMEs:
SAMTECH FRANCE, ANTECIM,
DISTENE
G-SCOP, LJK, LMT CACHAN
◗ Product development cycle: thanks to a reduced FE simulation time cycle and live
CAD model consistency with FE simulation models.
◗ Margins monitoring: thanks to systematic procedures for extracting all relevant input
parameters & monitoring simulation through error estimator and physical validation.
◗ Certification costs: thanks to robust FE simulations easily set up rather than tedious
and lengthy physical tests.
PROJECT DATA
Coordinator:
EADS
Call:
ANR
Start date:
January 2010
Duration:
48 months
Global budget (M2):
2.6
Funding (M2):
1
ROMMA will provide :
◗ Engineers with helpful routines and methodology for the modeling, calculation and verification of bolted joints. It will contribute to promote “Virtual structural product certification” and "Behavioral mock-up" based on a "Computer Assisted Testing Process" which
appears as a promising way to achieve the target of reducing costs and times cyles.
◗ An experimental demonstration platform able to support quick and relevant simulation
model generation from CAD Data.
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Retro-ingénierie de Traces
d'analyse de SIMulation et
d'EXécution de systèmes
temps-réel
RT-Simex addresses the general challenge of improving methods and tools for the
design of embedded software. Its goal is the development of techniques to relate
different predictions and observations of real-time software behaviour.
Expected behaviours and timing constraints will be formalized in a design model with
the standard UML/MARTE.
Observations (simulation and execution) will be recorded by « execution traces », provided
by several execution environments: Real-time Java, LinuxRT, general purpose processor.
Interpretation of data will be done by an analysis of static information (model based
design, reverse-engineered code) and by graphic representations in order to help
testing, validation, or debug activities.
ON GOING
PROJECT
CONTACT
Etienne JULIOT
OBEO
+33 (0)2 51 13 55 94
[email protected]
PARTNERS
Large companies:
THALES (TRT)
◗ Real time design by extending existing
SMEs:
ATEGO, OBEO
modelers (Papyrus and Obeo Designer)
for UML design and Marte timing
analysis.
CEA LIST, INRIA, LISYC / UBO
◗ Provide an unify trace format and extending real-time platforms.
◗ Eclipse analysis platform for dynamic,
static and design feedbacks.
PROJECT DATA
Coordinator:
OBEO
OUTCOMES
Call:
ANR
◗ Step 1: Choice a Marte methodology
for design and analysis, definition of an
unify trace format.
Start date:
September 2009
◗ Step 2: Improve tooling for observability of execution platform by customize
code generators, create architecture configurators or improve real time engines.
◗ Step 3: improve reverse engineering tooling to support runtime traces, static code
analysing and create debugging graphical view points complient with Marte designers.
◗ The RT-Simex platform now allows to graphically specify timing constraints on activity
diagrams and sequence diagrams, and to view the flow execution of any realtime program, whatever the used runtime.
◗ By creating a bridge between the trace format, Timesquare and Obeo Designer, we
will allow a step-by-step debugging and a timing violation analysis direclty at the design model.
138
Duration:
36 months
Global budget (M2):
2.1
Funding (M2):
1
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SALTY
Self-Adaptive very Large
disTributed sYstems
The main objective of the SALTY project is the provision of an autonomic computing
framework for large-scale service-oriented infrastructures. The project will result in a
coherent integration of models, tools and runtime systems to provide an end-to-end
support to the development of autonomic SOA applications in a model-driven way. This
will include never-covered aspects such as the monitoring requirements, the decisionmaking model, and an adaptation model tackling large-scale underlying managed
components. Use cases covering a wide application domain are used for validating the
approach and tooling: geo-tracking of very large truck fleets, huge image analysis
pipelines over a production GRID infrastructure and CBRN crisis management system
with workflow reconfigurations.
The SALTY project addresses a set of coherent scientific challenges:
◗ Applying autonomic computing principles to distributed SOA applications.
◗ Making explicit the controlled system integrity constraints to dynamically assess the
correctness of its operation.
ON GOING
PROJECT
CONTACT
Philippe COLLET
UNIVERSITE DE NICE - SOPHIA
ANTIPOLIS
+33 (0)4 92 96 51 08
[email protected]
PARTNERS
Large companies:
THALES
SMEs:
DEVERYWARE, MAAT-G,
PETALS LINK
INRIA LILLE NORD EUROPE,
UNIVERSITÉ DE NICE - SOPHIA
ANTIPOLIS, UNIVERSITÉ PARIS 8,
UNIVERSITÉ PIERRE & MARIE
CURIE
◗ Using and end-to-end modeldriven engineering approach, to
integrate in the software engineering process the full modelling of feedback control loops.
◗ Addressing current issues in
the monitoring process, such
as its quality of service, the
quality and usability of data acquired, and the dynamic adaptation to the clients constraints
on data.
PROJECT DATA
◗ Putting forward the use of models at run-time to enable the kind of high-level reasoning needed to cope with unanticipated adaptation situations.
◗ Tackling the distributed nature of the controlled system in the whole cycle of the control loops (delays, data integration, coordination of adaptations…).
◗ Addressing the large-scale nature of the controlled systems.
Coordinator:
UNIVERSITÉ DE NICE - SOPHIA
ANTIPOLIS
Co-label:
SCS
Call:
ANR
Since november 2009, the partners have analyzed and defined representative scenarios
from the validation use cases. First software models and architectures have been
recently designed. Following the agile approach that structures the project,
experimentations and incremental development are ongoing to improve the first version
of the framework.
Start date:
November 2009
Duration:
36 months
Global budget (M2):
3.5
Funding (M2):
1.2
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Open Standards for Computing
Oriented Systems
The OSCOS starting point is simple and it answers to a real problematic. One have to
help scientific communities to make a breakthrough in multi-physics, multi-scales et
multi-domains. One have to create the scientist group dynamics, which don't existing.
This can be possible by making communicate the different communities one with each
other. By setting up standards, labels and industrialization tools, The OSCOS project
contributes to the answer through a non-intrusive approach.
In order to be as effective as possible, the OSCOS approach has been shared by its
4 WorkGroups:
◗
◗
◗
◗
COMPLETED
PROJECT
CONTACT
Alban SCHMUTZ
OXALYA
+33 (0)8 20 48 44 40
[email protected]
www.oscos.org
System Interoperability
Applicative Interoperability
Industrialization Tools
PARTNERS
Community Building.
Large companies:
BULL, CS, EDF
PROJECT RESULTS
SMEs:
ARTENUM, GROOVIZ,
MANDRIVA, OXALYA, TERATEC
◗ Products:
Into the Industrialization Tools WorkGroup, the OSCOS-V3D part built the landmark
of its future project of scientific remote collaborative visualization: Collaviz. Based
on the ShareX3D standard, numerous components have been developped during the
24 months of the project. More info about collaviz, its inputs and outputs are available
here: www.collaviz.org.
◗ Services:
OSCOS has delivered its Specifications of
Interoperability as a frame of the OSCOS
labelling process. There are 3 labeling
levels: Gold, Silver and OSCOS Compliant. The OSCOS Labels are partly based
on the LSB and they respect the non intrusive approach choosen by the project.
Giving a way shared by much of the scientific applications, OSCOS enhances the
productivity and their ability to communicate one with each other. Labeling
process is a long term approach. In order
to make it spread, OSCOS will first focus
on its "Compliant Label". More info on
the OSCOS Labeling Process available
here: www.oscos.org.
PROJECT DATA
Coordinator:
OXALYA
Call:
ANR2006
Start date:
December 2006
Duration:
24 months
◗ Publications:
• ShareX3D, a scientific collaborative 3D viewer over HTTP. Web3D 2008: 13th International Symposium on 3D Web Technology, August 9-10, Los Angeles, California,
USA, New York, NY: ACM, 2008, pp. 35-41.
• Collaborative exploration of 3D scientific data, VRST 2008,27-29 octobre 2008, Bordeaux.
• Strategic & Economic Study of Scientific Computing Software, paper submitted on
summer 2008 and accepted as official paper at World Comp 2008, Las Vegas, Nevada.
140
CEA, DIGITEO SCILAB,
ECP, ENS CACHAN, IFP,
INSTITUT TELECOM, LIRIS,
UMR 5205 CNRS
Global budget (M2):
3.5
Funding (M2):
1.2
COLLAVIZ, CSDL, IOLS, LaBS,
OPEN HPC
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SHAN
Shape Modeling New theories and Algorithms
ON GOING
PROJECT
NURBS surfaces (Non Uniform Rational B Splines) are usually adopted in Design and
Engineering. With these surfaces geometric models are easily created with control points
or weights, but there are many computational problems with NURBS, because they do not
have a mathematical close form. We study new research avenues in mathematical
representation of curves and surfaces in order to solve some fundamental problems such
as projecting points and curves on surfaces, fitting, skinning and stitching. Moreover, we
construct a new system of continuity theories and propose a new way to compute
numerical simulations on these surfaces directly. All the novel approaches will be tested
on Engineering applications and compared with classical methods.
◗ Design: Improving the precision of NURBS based geometric models with new optimization techniques and a new system of continuity theories.
CONTACT
Jean-Claude PAUL
INRIA
+33 (0)1 39 63 53 22
[email protected]
PARTNERS
Large companies:
CHIDI (CHINA),
DASSAULT AVIATION, EADS
◗ Engineering: Computing numerical simulations on NURBS surfaces directly.
SMEs:
DISTENE,
SPRING TECHNOLOGIES,
INRIA, TSINGHUA UNIVERSITY
(CHINA)
◗ The Project began on December, 2009. It is a join Project between INRIA and Tsinghua
University, Beijing, China.
◗ The goal of the Project is to propose new research avenues. However, accuracy/convergence analysis are tested on applications with industrial partners.
◗ The Project duration is 36 months.
PROJECT DATA
Coordinator:
INRIA
Call:
ANR
Start date:
December 2009
Duration:
36 months
Global budget (M2):
1.8
Funding (M2):
0.3
CSDL
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High Performance Simulation
of CO2 Geological Storage
The aim of the project is to design advanced algorithms to solve the main difficulties of
CO2 storage simulations on massively parallel computers.
The project will study domain decomposition methods in space and time in order to
solve efficiently the various time scales, preconditioned Newton Krylov algorithms for
the solution of the large nonlinear reactive transport systems, and parallelization
strategies based on a dynamic repartitioning of the mesh and load balancing.
ON GOING
PROJECT
CONTACT
Anthony MICHEL
IFPEN
+33 (0)1 47 52 60 32
[email protected]
◗
◗
◗
◗
Implement efficient technologies in a massively parallel platform.
Adapt new algorithms to the problem of CO Geological storage.
2
Build a full scale model for CO2 Geological Storage.
Run this simulation on a massively parallel platform (up to 1000 processors).
PARTNERS
BRGM (EPIC), ENSMSE,
IFPEN(EPIC), INRIA, PARIS13
PROJECT DATA
Coordinator:
IFPEN
Call:
ANR
Start date:
2008
Duration:
36 + 12 months
Global budget (M2):
1.6
Funding (M2):
0.5
• Massively Parallel Simulator for CO2 Geological Storage.
• Reactive Transport Prototype with Time-Space Domain Decomposition.
• Open Source Geochemical Software Module Arxim.
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SIMILAN
SIMulation & Implementation
high performance fitted
to digitaL signAl processiNg
Processors technologies have progressed for few years and the main evolution to use
the maximum of transistors is to juxtapose calculation units. Thus, the simple-core
processor is now replaced with many-core processors. However, to take advantage of
the powerful calculator, the algorithms have to be developed in parallel form. Indeed,
only parallelization experts are able to use parallel machines and the technical experts
on signal processing subjects cannot use parallelization easily.
Two main objectives are:
ON GOING
PROJECT
CONTACT
Marie-Anais MARSALY
THALES AIR SYSTEMS
+33 (0)1 64 91 73 77
marie-anais.marsaly
@thalesgroup.com
◗ To make access to parallel technologies easier for signal processing experts (nonspecialists of parallel technologies).
◗ To optimize parallelization tools thanks to the knowledge of needs and constraints
linked to digital signal processing.
PARTNERS
◗ This tool will use a highlevel description, multilanguages libraries and a
material architecture description.
Large companies:
DASSAULT AVIATION, THALES
AIR SYSTEMS, THALES
RESEARCH & TECHNOLOGY,
SMEs:
DXO, HPC PROJECT, IS2T,
KALRAY
◗ The main technological
and scientific innovations
adressed by SIMILAN are:
• Using Scilab scientific
computation abilities in
Java programming to
add specific instruction
in the java virtual machine able to process.
These instructions will allow to run Scilab software on this java virtual machine.
• Making access to parallel technologies easier for signal processing experts (nonspecialists of parallel technologies). The approach is to set up rules or tools, like
specific graphical operator or information, which will help the developers to write
a software code optimised for parallel tools and targets.
• Automatic management of data sharing to optimize the parallelization. Several
methods will be studied like the advanced pavement analysis techniques or software pipeline.
• Furthermore, using Scilab in ASTRAD platform instead of Matlab scientific computation software is also a real economical interest.
DIGITEO / SCILAB, ONERA,
SUPELEC, UNIVERSITE PARIS
DESCARTES
PROJECT DATA
Coordinator:
THALES AIR SYSTEMS
Call:
FUI10
Start date:
April 2011
Duration:
30 months
Global budget (M2):
5.2
◗ SIMILAN’s aim is to share a tool with a signal processing community to optimize it and
Funding (M2):
1.9
improve it considering mutual constraints. This tool will be validated for several
domains: radar applications, telecommunications, image processing and electromagnetic tests data processing.
◗ SIMILAN will make the way from new algorithms to real-time implementation
OPENHPC, TER@OPS,
OPENGPU, CHAPI
easier and will let a software environment enable to manage signal processing from
the simulation to computer code generation.
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SISTAE
Simulation and Statistiques
for Non-Destructive Evaluation
Inspection reliability is one of the key issues in ensuring safety of critical structural
components.
Strong efforts have been conducted in order to determine the reliability of NonDestructive Evaluation (NDE) methods that are designed to detect flaws in such
components.
The SISTAE project addresses inspection evaluation using probabilistic criteria in fields
such as aeronautics, the maritime sector and the nuclear power industry.
This project aims at reducing the time and cost of the analyses that are required to
determine quantities such as POD (Probability of Detection) curves.
A method based on existing NDE simulation tools is developed in order to replace some
of the experimental data used in statistical studies with simulation results.
COMPLETED
PROJECT
CONTACT
Frédéric JENSON
CEA LIST
+33 (0)1 69 08 59 22
[email protected]
PARTNERS
Development of a POD module implemented in the software CIVA which groups together
the basic tools required to determine POD curves from NDT simulation results. Application cases representative of the industrial needs were selected and the corresponding experimental data were gathered. These data allowed us to validate the numerical
approach for an eddy current case.
Large companies:
BUREAU VERITAS, EADS-IW,
EDF R&D
SMEs:
CEDRAT
CEA-LIST, CMAP (ECOLE
POLYTECHNIQUE),
LCND (UNIVERSITE DE
LA MEDITERRANEE)
PROJECT DATA
Coordinator:
CEA LIST
Call:
ANR
Start date:
March 2007
Duration:
36 months
Global budget (M2):
1.3
◗ Products:
1 software module proposed in CIVA release 10.
◗ Publications:
9 publications in international conferences. More specifically, the POD module was
presented during the 4th European-American Workshop on Reliability of NDE,
(Berlin, 2009) and the ICNDE (Yokohama, 2009), ASME (Prague, 2009) and QNDE
(Rhodes Island, 2009) conferences. Proceedings were also published during these
conferences.
144
Funding (M2):
0.6
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SoCLib
COMPLETED
PROJECT
The SoCLib project addresses a particular class of embedded systems: the multiprocessors
system-on-chips (MP-SoC), which are now used in a great majority of industrial domains
such as telecom, video and multimedia, automotive, transportation and others. SoCLib
enables the development of virtual prototyping platforms and facilitates architecture
exploration of embedded applications by offering a complete toolchain composed of:
◗ An Open Source library composed of simulation models for hardware components
(IP cores) and embedded operating systems.
CONTACT
Fabien COLAS-BIGEY
+33 (0)1 46 13 33 04
fabien.colas-bigey
@fr.thalesgroup.com
◗ Software tools to design embedded applications: simulation accelerator, configuration and debugging, automatic generation of simulation models.
◗ Virtual prototyping makes available SoC technology (on ASIC or FPGA) to several kinds
of users, such as OEM, Innovative PME, laboratories, and others.
PARTNERS
After three years of developments, the SoCLib project has produced more than a hundred of components integrated in an Open Source Library: processors (Mips, PPC, Arm,
etc), memory controllers, DSP, interconnects, peripherals, operating systems, and
others. The SoCLib website contains all information relative to virtual prototyping and the
community of users is growing. Moreover,
SoCLib partners have proposed a new modeling standard called TLM-DT that should
favour the parallelization of the SystemC simulator and therefore increase simulation
perfor-mances. This performance increase
should play a key role for adoption of virtual
prototy-ping techniques by industrials.
Large companies:
ORANGE,
STMICROELECTRONICS,
THALES COMMUNICATIONS,
THOMSON R&D
SMEs:
MAGILLEM DESIGN SERVICES,
TURBOCONCEPT
CEA LETI, CEA LIST, CITI,
INP TIMAINRIA RENNES,
INPG GIPSA/LAB,
INRIA SACLAY,
TELECOM PARISTECH,
UBS LLABSTICC, UPMC LIP6,
UPMC LISIF
◗ Services:
• The SoCLib library is Open Source and can therefore be used by any developer. The
range of services proposed by the library covers different domains from application
development to architecture exploration and customization. A large range of tools
have also been developed in the scope of the project. They assist the user in the
development of the virtual platform and provide debugging and analysis facilities.
• The library can also be used by EDA vendors to complete their offer and propose
new services to their customers. Magillem Design Services and Silicomp have proposed a brief market overview and established a potential exploitation strategy.
◗ Publications:
SoCLib partners have directly participated to 10 publications and 14 communication
actions. A live cd integrating a pre-installed version of the library and tools has been
developed and proposed to participants of the DATE conference in 2009 and 2010.
Moreover, two tutorials have been accepted to the NoC Symposium (May) and DAC
conference (June).
Industrial partners have proposed three use cases that validate the efficiency of the
library: an audio decoder, a video decoder and a modem. The audio decoder validates
the reliability of the proposed methods and tools by checking the validity of generated bits at the output of the application. The video decoder, was used to evaluate the
performances of TLM-DT components and the modem validates interoperability of
components.
PROJECT DATA
Coordinator:
Co-label:
IMAGES ET RESEAUX,
MINALOGIC
Call:
ANR
Start date:
December 2006
Duration:
36 months
Global budget (M2):
7.3
Funding (M2):
2.5
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COMPLETED
PROJECT
Stimulee is an online tool for cognitive stimulation intended to improve the wellbeing
and the communication capacities of elderly but also people with Alzheimer disease.
Connected to the memOree.fr website, Stimulee uses already stored memory contents
to propose tools for three kinds of end-users: elderly, families and caregivers.
Based on their expertise in cognitive stimulation, design and ergonomics of the services,
the partners carried out with the end users the tool features specification and the
scenarii for use.
Stimulee includes three modules for managing, editing and viewing cognitive stimulation
workshops. The facial recognition module is available for digital content organization.
The tool also benefits from the use of nosql-type based multimedia storage.
CONTACT
Samuel VINSON
SAFRAN MORPHO
+33 (0)1 58 11 34 71
[email protected]
PARTNERS
Large companies:
SAFRAN MORPHO
◗ With regards to cognitive
SMEs:
ERGONOMICA, SOVAME, XEDIX
workshops, caregivers have
access to more personnal
and public content in a more
collaborative manner, which
helps adapting workshops to
the audience.
ARTS
◗ With regards to digital memory organisation, processes
leveraging face recognition
have been designed. This faciliates the automated annotation of visual content at
different ages.
PROJECT DATA
Coordinator:
SAFRAN MORPHO
◗ With regards to scalability,
the processes in place have
been implemented so as to
run on a fully distributed environment so as to offer the service via a centralized platform.
Co-label:
CAP DIGITAL, IMAGE ET
RESEAUX
Call:
WEB 2.0
Start date:
December 2009
◗ Publications:
Klinger E, Martinet E and Perret D.Towards a Web 2.0 based software for the design
and the animation of cognitive stimulation workshops. Proceedings of Cybertherapy
Conference, June 2011, Gatineau Québec.
Stimulee will produce a new type of service for elderly and especially for institutions
in terms of cognitive workshops. In addition to the "stimulee software", several services will be developped to produce contents, to outsource cognitive workshop animation or driving, and it will help the deployment of multimedia interfaces in
institutions for elderly. The market concerns all institutions for elderly worlwide. An
individual version for all elderly will be created later.
The integration of face recognition to the XediX massive video datastore is an opportunity for new services on the long run either in video surveillance or internet and
mobile application.
◗ Job creation:
4 persons during the project.
146
Duration:
18 months
Global budget (M2):
0.9
Funding (M2):
0.4
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Modelling systems simulatio
STURM4
Simulation de la Turbulence à haut Reynolds
par Multi-Maillages et Multi-Méthodes
For industrial applications such as thermal stripping, aeroacoustics and turbulent flow
induced vibrations, a refined spectral representation of the flow is required. LES provides
detailed predictions of turbulent phenomena and High Performance Computing makes
this approach feasible at least for intermediate Reynolds numbers. Coupled code
simulations on multiple overlapping grids can also lead to a technological breakthrough.
This project aims at exploiting these multi-mesh and multi-model developments, first
in an unstructured finite volume CFD code for refined predictions of near wall turbulent
flows, and also in a high-order finite difference aeroacoustics code for direct acoustic
simulation. The methods will be extended to fluid structure coupling thanks to moving
overset grids.
COMPLETED
PROJECT
CONTACT
Philippe LAFON
EDF
+33 (0)1 47 65 37 08
[email protected]
PARTNERS
Large companies:
EDF, VALEO
◗ Evaluation of structured and unstructured grids for the accuracy of LES results near walls.
◗ Application of HPC for the creation of a date base of LES results for cylinders in cross-flow.
◗ Creation of an original experimental data base for the validation of LES and aero-
CNRS/LAMSID, UPMC
acoustics simulations: example of the Valeo airfoil.
◗ Application of HPC and overset grid technique for first direct noise computation on
configurations of industrial interest.
PROJECT DATA
Coordinator:
EDF
Call:
ANR
Start date:
January 2007
Duration:
48 months
Global budget (M2):
1.3
Funding (M2):
0.7
◗ Publications:
One PhD thesis, four post-docs, six reports, seven communications, four submitted
papers, a web site: http://cfd.mace.manchester.ac.uk/Main/Sturm4Project, two invited
partners: University of Manchester and Ecole Centrale Lyon.
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SyGeO, l'usine à ERP 2.0 Système de Gestion Ouvert
SyGeO is a flexible and open platform that can adapt to the specific needs of customers.
Based upon OPA, the state-of-the-art programming language developed and
commercialized by MLstate, SyGeO will make available to business applications the
security and safety guarantees provided by MLstate’s solution.
SyGeO produces standalone web-apps which include the web site of an organization
and business “2.0” applications where both internal and external stakeholders can
collaborate, produce and exchange.
Technically, SyGeO uses a compiler that generates OPA code from high-level businessoriented specifications. Together with SyGeO specific libraries this code is then
compiled to generate a full web application.
ON GOING
PROJECT
CONTACT
Mathieu BAUDET
MLSTATE
+33 (0)1 55 43 76 57
[email protected]
PARTNERS
SMEs:
MLSTATE, SCAN & TARGET
◗ Innovative aspects of SyGeO are manifold. On the technological side, SyGeO aims to
CERTOP - ENIT - HEC
build a new high-level “4th generation” language on the top of the existing state-ofthe-art programming language OPA created by MLstate. This new specification language aims to enable fast and secure development of business applications that
implement non only classical functions such as business workflows, but also incorporate novel features from the Web 2.0, such as a social network with blogs and Wikis.
◗ The combination of entreprise
applications and the Web 2.0
paradigm raises many questions related to human and social sciences. Whereas the
benefits of the Web 2.0 are well
known in terms of communication speed and productivity, not
every business applications
may be suitable for an integration. To answer this question, the project SyGeO will include a strategical survey of
reasonable business targets. The team SyGeO will also conduct a careful study of the
identified social risks of such a combination, such as rejection by the users or the
loss of hierarchical structures.
Launched in Nov. 2009, SyGeO is an active ongoing project. Several graphical and
language components of the high-level compiler SyGeO have been prototyped, also
suggesting interesting adaptations to the backend language OPA. A comprehensive
marketing study has been conducted so as to bring SyGeO’s future specification
language as close as possible to the future users’ expectations.
148
PROJECT DATA
Coordinator:
MLSTATE
Call:
WEB2.0
Start date:
November 2009
Duration:
21 months
Global budget (M2):
1.5
Funding (M2):
0.7
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System for the simulation and optimisation
of the request for tasks aiming
at satisfying user's readiness needs
SYS-MCO stands for SYStem for MCO, where MCO is a french acronym for "Maintien en
Conditions Opérationnelles" which encompasses all necessary actions aimed at
satisfying users' needs for the readiness of their systems.The project gathers one major
corporation (GIMA), three SME's (Spring Technologies, Elapse and Kayentis) and two
academic partners (CEA-LIST and Paris 8 University/MGSI Laboratory) to work on all
the necessary tools for optimising the organization, processe and procedures, required
for the in-service support of a given system.
COMPLETED
PROJECT
CONTACT
Gilles BATTIER
SPRING TECHNOLOGIES
+33 (0)6 86 37 27 70
[email protected]
PARTNERS
◗ Development of the SPL (Système Physique Logistique) demonstrator which is the
operational pilot of the maintenance and whose goal is to control the shop-floor maintenance in operational conditions in an automatic, reliable, integrated and predictive way.
◗ Development of the SML (Système Management Logistique) demonstrator which is the
strategical pilot of the maintenance whose goal is to aid for busisness decision taking.
◗ That needs to:
• Human capture of technical facts and events (FTECH).
• Automatic capture of technical data (ACQ).
• Human Machine Interface of data analysis devices (HMI).
• Numerical simulations of the health components (ISIM).
• Modelisation and simulation of Human Ressources (R).
Large companies:
GIMA
SMEs:
ELAPSE, KAYENTIS,
SPRING TECHNOLOGIES
CEA-LIST, PARIS 8 UNIVERSITY/
MGSI LABORATORY
PROJECT DATA
Coordinator:
SPRING TECHNOLOGIES
Call:
FUI7
Start date:
May 2009
Duration:
24 months
Global budget (M2):
3.3
Funding (M2):
1.5
◗ Job creation: 5
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An integrated computing machine
for complex embedded systems
The objective is the definition of a multi-domain massively parallel architecture and
corresponding tool flow. The proposedarchitecture will be able to embed heterogeneous
accelerators optimised for the targeted application domains.
A homogeneous programming model will ensure hardware independence of the
application. A design environment will allow to optimize and map the application on the
parallel architecture.
COMPLETED
PROJECT
CONTACT
Fabrice LEMONNIER
THALES RESEARCH
& TECHNOLOGY
+33 (0)1 69 41 59 51
fabrice.lemonnier@thalesgroup
.com
PROJECT RESULTS
◗ Technologies:
A homogeneous hardware framework has been developed to embed heterogeneous
accelerators. It is based on tiles on a common NoC (Network on Chip) from Arteris for
communication and synchronisation, a hierarchy of memories and the I/O. The tiles
embed a processor dedicated to the control part, a DMA, a local memory and the
dedicated accelerator to the targeted domain. Three types of accelerators has been
embedded in the context of Ter@ops: a SIMD dedicated to image processing, a reconfigurable accelerator based on AboundLogic technology and the SCMP processors from
CEA LIST for dynamic computation. They are also RISC processors dedicated for
instance to floating point computations. This architecture is able to target a large panel
of domains by embedding the corresponding accelerators. Depending on these last
ones, the computing power of this architecture is roughly 500 Gops or 100 Gflops for a
consumption of 15 W. A systemC simulator has been developed to make performance
evaluations of mapped applications. We have also developed a complete design environment from algorithm to executable code. The tools allow to
make the description of the application and the architecture, to
make the optimisation (between
and inner tiles) and the partitionning on the parallel architecture. The programmation is
done through a homogeneous
programmation model and its
corresponding API which ensure hardware independence of
the application. Validations has
been done on applications for
radar, image processing and
video compression.
◗ Job creation:
PARTNERS
Large companies:
DASSAULT AVIATION,
EADS ASTRIUM, MBDA,
THALES OPTRONIQUE SA,
THALES RESEARCH &
TECHNOLOGY, THOMSON SA,
VALEO ETUDES
ELECTRONIQUES
SMEs:
ABOUNDLOGIC, ARTERIS SA,
ESTEREL TECHNOLOGIES
ARMINES CRI, CEA LIST,
CNRS LABORATOIRE ETIS,
ENSTA, INRIA ALCHEMY,
UNIVERSITÉ PARIS SUD
(LABORATOIRE IEF),
UNIVERSITÉ DE VERSAILLES
SAINT QUENTIN-EN-YVELINES
(PRISM)
PROJECT DATA
Coordinator:
THALES RESEARCH
& TECHNOLOGY
Major corp : 5, SMEs : 2, Academics : 10.
Call:
FUI1
Start date:
December 2007
Duration:
30 months
Global budget (M2):
9.6
Funding (M2):
3.5
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U3CAT
Unification of Critical C Code
Analysis Techniques
Embedded software is increasingly prevalent in everyday life. Moreover, very large
applications are now commonly embedded in various systems and often used to
perform critical tasks, for which a failure would result in serious economic loss or even
casualties. There is thus a strong need to provide the architects of such systems with
adequate tools that allow them to state precisely the required properties of the
application and to verify that the implementation meet them. Various formal analysis
techniques exist, which all have their pros and cons. It is thus desirable to let these
analyses cooperate in order to prove properties that could not have been established by
a single technique. This is the main challenge that will be addressed in U3CAT, which
will be built upon the Frama-C platform, one of the results of CAT, U3CAT's predecessor.
ON GOING
PROJECT
CONTACT
Virgile PREVOSTO
CEA LIST
+33 (0)1 69 08 82 98
[email protected]
PARTNERS
The project is mainly focused on various enhancements of the Frama-C platform. They
can be grouped in three categories. A first goal is to tackle additional domains of analysis, such as floating-point computations and temporal properties. These domain require specific analysis techniques which are implemented according to requirements
gathered from the industrial partners of the project. The second aspect concerns the
scalability of the analyses and the cooperation of the techniques to achieve a given verification task. Frama-C already provides a strong basis for such cooperation, but some
enhancements are nevertheless needed in this area. Furthermore, efficiency of static
analyzers can always be increased. Last, some work will be conducted in the formalisation and methodology of use of static analysis. This will provide a trusted framework
for the development of critical software. In particular, all C analyzers and compilers
rely on C semantics and some more or less abstract memory model. Agreeing on a
proper formalisation of such models between Frama-C and the certified CompCert
compiler would thus provide a complete development and verification chain from C code
to binary. Similarly, it is envisaged to lift Frama-C results up
to Scade models in the case of
Scade-generated code. Finally,
the project will strive to create an
ecosystem around Frama-C,
which is available under an
Open-Source License. This includes academic and industrial
communication, animation of the
web community (web page, wiki,
discussion list, …) and incorporation of Frama-C into larger IDE,
such as Eclipse.
Large companies:
AIRBUS, ATOS ORIGIN,
CS COMMUNICATION &
SYSTEMES, DASSAULT
AVIATION, SAGEM
CEA LIST, CNAM,
INRIA RENNES,
INRIA ROCQUENCOURT,
INRIA SACLAY
PROJECT DATA
Coordinator:
CEA LIST
Co-label:
AEROSPACE VALLEY
Call:
ANR
Start date:
February 2009
Duration:
36 months
Global budget (M2):
4.4
Funding (M2):
1.8
Many analysis tools have been significantly enhanced during the project. In particular,
Frama-C's value analysis is now faster, more memory efficient and, in some cases,
more precise, allowing it to scale to larger and more varied codebases. The last release
handles floating-point computations. A first version of a deductive verification plug-in
supporting various memory models has been released at the end of 2010, and should
be consolidated in 2011. Similarly, Why3, which among other things allows for an easier
management of proof obligations coming from such plugins, will be under heavy
development this year. Finally, an Eclipse plug-in enabling the use of Frama-C from
within the IDE will facilitate its usage for Eclipse users and should thus help spreading
the tool and the techniques it promotes.
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USINE
LOGICIELLE
Today, 15 to 40% of the value of high technology products (from cell phones to satellites and cars)
is provided through software. Customers are asking for more services, more features and
reliability, and all of these requirements make these products more complex to build while there
is an increasing pressure for lower price.
Within the SYSTEM@TIC PARIS-REGION Cluster, the "Usine Logicielle" project promotes model
based software engineering which allows standardizing and automating the design, the integration,
the validation and the maintenance of the software embedded in these high technology products.
The solution proposed by "Usine Logicielle" will materialize in new tools, new organizational structures,
new jobs and new trainings that will allow a productivity increase, quicker time to market and higher
competitivity.
COMPLETED
PROJECT
CONTACT
Philippe MILS
THALES
RESEARCH &TECHNOLOGY
+33 (0)1 69 41 60 39
[email protected]
PROJECT RESULTS
◗ Products:
• LIP6: First public version of SoCLib platform (January 2008).
• Thales Communication: MyCCM Component Framework transfered in operations: 2007, industrialization of MyCCM issued from previous R&T projects (MERCED).
• EADS IW: Design of the Newspeak language simplest as possible to build l’analyse static
analysis programs. Penjili component (C overflow static detection).
◗ Services:
• TRIALOG: Usine logicielle projects MERCED/COMPARE have enabled Trialog to win contracts
related to AUTOSAR (Automotive domain).
• EADS IW: Partnership with Esterel technologies.
• DASSAULT AVIATION: model transformer from Rose-Esterel to SCADE 6 models.
• OBEO: Industrialisation of ATL a model transformation component from the INRIA.
• ESTEREL TECHNOLOGIES:
- Prototype of the MTC Analyzer test generator.
- UML/SysML gateway to SCADE Suite.
- Adaptation et integration with Papyrus modeler.
- SCADE/EMF pour Eclipse (CS-SCADE) key component of the “Open SCADE Architecture”.
• CEA:
- UML Extensions for the modeling & analysis of embedded real time systems: MARTE.
- Implementation of the Papyrus, the only Open Source UML modeler supporting the MARTE profile.
- Implementation of an IDM platform integrating the modeler and and the specialized modeling
components.
• Verification and validation
- Test generator conformant to TTCN3 format from UML models (Agatha).
- Extension of the static analyser of numeric precision of C programs (Fluctuat).
- Implementation of a static analysis tool and test generator for binary code (Osmose).
- Implementation of a simulator of hardware architecture using micro-processeurs (using
Unisim technology).
◗ Job creation:
CS 6 jobs, Thales Com 6 jobs, TRIALOG 5 jobs. CEA Thèses: 6, Post doctorants : 4, Hiring: 2.
◗ Publications:
• C. Gaston, MoDels2006. A Formal Semantics for UML Symposium.
• Gerard, S., A. Cuccuru, and F. Loiret, 2006, Zurich. A methodological approach for model-based
development and validation of RT/E systems in Artist2 workshop.
• Frédéric Boulanger, Guy Vidal-Naquet, INSTICC Press 2006. "A Primitive Execution Model for
Heterogeneous Modeling".
• S. Gérard, H. Espinoza, 2006. Rationale of the UML Profile for MARTE (Book Chapter). “From
MDD Concepts to Experiments and Illustrations”.
• C. Petriu and Murray Woodside, Computer Science, 2006. Annotating UML Models with Nonfunctional Properties for Quantitative Analysis.
• Medina Julio, Lopez Patricia and Drake José María, FDL'06. Towards a UML Profile for RealTime Modelling of Component-Based Distributed Embedded Systems.
• Huáscar Espinoza, Julio Medina, Hubert Dubois, François Terrier, andSébastien Gérard. International Workshop on Modeling and Analysis of Real-Time and Embedded Systems. Towards a
UML-Based Modeling Standard for Schedulability Analysis of Real-Time Systems.
• C. André, A. Cuccuru, R. de Simone, T. Gautier, F. Mallet, J-P. Talpin. Modeling with logical time
in UML for real-time embedded systemdesign. In Proceedings ofMARTES 2006 atMoDELS 2006,
the InternationalWorkshop on Modeling and Analysis of Real-Time and Embedded Systems. ISBN:
82-7368-299-4.
• Frédéric Jouault, Jean Bézivin et Ivan Kurtev, GPCE 2006, Portland. "TCS: a DSL for the Specification of Textual Concrete Syntaxes inModel Engineering".
• Alain Le Guennec et Bernard Dion, ERTS 2006, Toulouse. Bridging UML and Safety Critical
Software Development Environments.
152
PARTNERS
Large companies:
CS, DASSAULT AVIATION,
EADS, EDF, HISPANO-SUIZA,
MBDA, THALES
SMEs:
ESTEREL, SOFTEAM, TRIALOG
CEA, IFP, INRIA, LIP6, LRI,
POLYTECHNIQUE, SUPELEC
PROJECT DATA
Coordinator:
THALES R&T
Call:
FUI0
Start date:
February 2006
Duration:
36 months
Global budget (M2):
15
Funding (M2):
5.4
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USINE
NUMERIQUE
COMPLETED
PROJECT
Significant saving in development cycles and costs of the manufacturing systems are
targeted, especially for complex and high technology products in automotive, aeronautic
and micro-electronic industry, with the increasing use of enhanced simulation tools.
Extensive use of 3D display, and immersion technologies, enables friendly understanding
of situations, provides communication tools among various specialists, and supports
training.
Various processes of the production process and related controls are addressed with
realistic behaviour rendering.
CONTACT
PROJECT RESULTS
PARTNERS
◗ Products:
Industrial softwares CATIA-DELMIA, CIVA (Non destructive testing), MKM (virtual
mannequin).
◗ Technologies:
Simulation of manufacturing processes and Non Destructive Testing, logistic, sheduling,
preparation, Virtual & augmented reality, virtual mannequin.
◗ Publications:
11 conferences, 2 Technical paper, 1 press conference, 7 articles in newspapers,
1 technology show.
• Manufacturing processes engineering.
• Realistic simulation demonstrators for 4 industrial use cases (Micro-processor
Photolithography, Machining, automotive & aeronautic assembly).
• Including balanced production line scheduling and Virtual mannequin in the loop.
• Inspection engineering.
• Extensive numerical modeling of automated systems, addressing production monitoring, supporting analysis and prediction of industrial efficiency.
• Hardware (multi-element sensors- robots) & software (NDI) development.
• Factory engineering.
• Ontology of factory based development of SW infrastructure required for modeling
in CATIA/DELMIA.
Bernard BOIME
+33 (0)1 46 97 32 42
[email protected]
Large companies:
CIMPA, DASSAULT AVIATION,
DASSAULT SYSTÈMES,
EADS IW, EDF, RENAULT,
SNCF, VIRTOOLS
ALTIS, ILOG
SMEs:
EURALTECH, M2M
CEA LIST, ENS-LURPA,
ENS-SATIE, ESPCI - LOA,
INRETS, INRIA, SUPELEC,
SUPELEC/L2S, SUPELEC/LGEP
PROJECT DATA
Coordinator:
EADS
Call:
FUI0
Start date:
February 2006
Duration:
18 months
Global budget (M2):
11.9
Funding (M2):
4
OLDP, USINE NUMÉRIQUE 2
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USINE
NUMERIQUE 2
◗ Data base management enabling the production sytems simulation.
◗ Implement tools for collaborative engineering for digital production in the extended
enterprise (intregrators with suppliers network).
◗ Manage the multi-scale simulation in the production system.
◗ Implement real time simulation and realistic model behaviour, for a virtual/real syn-
COMPLETED
PROJECT
CONTACT
Bernard BOIME
+33 (0)1 46 97 32 42
[email protected]
chronous monitoring.
◗ Integrate in the simulation scenario, a virtual mannequin, with realistic physical and
cognitive behaviour.
PARTNERS
PROJECT RESULTS
◗ Products:
Industrial softwares CATIA-DELMIA-3DVIA, CIVA (Non destructive testing), MKM (virtual mannequin); NCSIMUL-TOOLSIMUL, ILOG.
◗ Services:
Large companies:
CIMPA, DASSAULT AVIATION,
DASSAULT SYSTÈMES,
EADS IW, EDF, RENAULT,
SNECMA
ALTIS, ILOG
1 dissemination platform under feasability
evaluation.
SMEs:
M2M, PDF SOLUTIONS,
REALVIZ, SPRING
TECHNOLOGIES
◗ Technologies:
Simulation of manufacturing processes and
Non Destructive Testing, logistic, real time
sheduling, preparation,
virtual&augmentedreality,
virtual mannequin.
CEA LIST, ENS-LURPA,
ENS-SATIE, ESPCI - LOA,
INRIA-IRISA, SERAM,
SUPELEC/L2S, SUPELEC/LGEP
◗ Publications:
12 conferences,
1 Technical papers.
• Extended and collaborative factory.
• Development of the
data and concept architecture of the digital factory, including versioning, life cycle and configuration
management (in Dassault Systèmes SW suite).
• Virtual/real integration (in Spring SW suite).
• Development of an accurate and realistic model of scheduling and resynchronisation with real status, failure real time detection, on-line integration of Non Destructive Testing, in-depth modelisation of machining processes, assembly regards
to tolerancing…
• Virtual reality and virtual mannequin.
• Complex cognitive behavior modeling of: technical gestures and postures (prehension of rigid or flexible parts…), multi-contacts situations.
• Development of intuitive interfaces for the monitoring of virtual humans.
PROJECT DATA
Coordinator:
EADS
Call:
FUI3
Start date:
July 2007
Duration:
24 months
Global budget (M2):
15.6
Funding (M2):
5.5
OLDP, USINE NUMÉRIQUE 1
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VAUCANSON 2
Vaucanson 2:
A Finite-State Machine
Computation Platform
This project is a collaboration between three partners, which are members of
Systematic, and with the National Taiwan University. It aims to realize a new platform,
named Vaucanson 2, dedicated to the computation and the manipulation of finite states
weighted automata, which are a quite simple, but very efficient, computation model. This
platform will be dedicated both to academic teaching or research, and to any people or
industrial interested in using weighted automata. The programmation using generic C++
should garantee good performances. The access to the platform will be possible at three
levels: the C++ library, a set of binaries which read and produce XML descriptions of
automata and which apply various algorithms, and at last, a graphical interface.
ON GOING
PROJECT
CONTACT
Sylvain LOMBARDY
UNIVERSITÉ PARIS-EST
MARNE-LA-VALLÉE
+33 (0)1 60 95 77 41
Sylvain.Lombardy
@univ-paris-est.fr
The innovations of this project come from the goals we want to achieve. The weighted
automata are actually a common description for very different compution models, depending on the nature of the labels, and the nature of weights. Our platform will have
the possibility to handle any type of label or weight. This simple model is interesting because it allows fast computations. This both requirements lead us to choose generic
C++, which is used at each level of the project. Another innovation is that the conception of the platform involves theoricians of the algorithmic of finite automata, which
means that we want that every operation uses the best algorithm and that the implementation respects the complexity of the algorithm. The API of the library will offer the
functions to write algorithms in a way as close as possible of their mathematical description. Last, our ambition is that the platform interests both teachers interested in
showing automata with about ten states, and industrial or linguistic applications which
manipulates automata with millions of states.
The project has just began. We have achieved the specifications of the new interface.
The implementation of the new core has started.
PARTNERS
SMEs:
EPITA
NATIONAL TAIWAN
UNIVERSITY,
TÉLÉCOM PARISTECH,
UNIVERSITÉ PARIS-EST
MARNE-LA-VALLÉE
PROJECT DATA
Coordinator:
CNRS, UNIVERSITÉ PARIS-EST
MARNE-LA-VALLÉE
Call:
ANR
Start date:
March 2011
Duration:
36 months
Global budget (M2):
0.6
Funding (M2):
0.2
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VERification-oriented & component-based model
Driven Engineering for real-time embedded systems
VERDE defines amethodological framework for iterative, incremental, validation-driven
design of component-based architectures. It integrates and adapts model-based
techniques with testing and analysis tools to meet industrial domain requirements
(space, software radio, railway). Building on the experience and results fromother
research projects, and with a strong partnership between major corporations, SME,
and academics from European countries (France, Germany, Spain, and Norway), the
project results in a novel approach that is ready for large-scale deployment in the
Industry. The expected outcome is the net improvement of productivity, predictability
and cost control in the development process. The solution will be readily exploitable by
software engineering vendors and end users.VERDE has its dedicated website available
at www.itea-verde.org
ON GOING
PROJECT
CONTACT
Olivier HACHET
+33 (0)1 69 41 55 97
[email protected]
PARTNERS
◗ Assessment of currents processes and domain requirements for a new methodology
for RTE systems.
◗ Definition of amethodological framework and support for tools integration. This implies a study for alignment of current UML extensions impacted (lwCCM, MARTE…).
◗ Adaptation of multiple existing component frameworks to support this iterative incremental methodology (lwCCM, SCA, AUTOSAR, SystemC).
Large companies:
ALSTOM TRANSPORTS,
THALES (TAS, TCF, TRT),
SMEs:
GEENSOFT, OBEO,
SMARTESTING
CEA
◗ Selection and integration of tools and methodologies for the analysis of non-functional properties (timing, power
consumption, reliability).
◗ Adaptation of appropriate exis-
PROJECT DATA
ting test generation techniques
and definition of new ones to
target the specific needs of
real-time embedded systems.
Coordinator:
Call:
FUI 7
◗ Evaluation by domain of the
VERDE solution. It is essential
to ensure that the incremental
process adapted to component
based MDE in RTE systems
reaches the expected results
and the domain specific requirements.
Start date:
June 2009
Duration:
36 months
Global budget (M2):
9.4
Funding (M2):
2.8
◗ End user current practises and expectations are identified and redistributed toward
USINE LOGICIELLE, LAMBDA
technical activities that will manage them.
◗ Methodological aspects wil be built based on the analysis of these requirements and
practises.
◗ Common component oriented software design approach for lwCCM, AUTOSAR, SCA
and SystemC) in ongoing.
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Professionnal Virtual Classroom
in Real Time.
The VUE project is a complete WEB 2.0 platform for public and private training bodies
and self-employed teachers. This “ready to use” platform will have totally new and
original functionalities allowing, among other features, the organisation of a totally
interactive real-time virtual classroom with up to hundreds students online.
VUE plateform will revolutionize the way we work on e-learning and will provide real
interactivity between teachers and learners, creating a large linked community in constant growth:
ON GOING
PROJECT
CONTACT
Xavier RIPART
3S INFORMATIQUE
+33 (0)1 70 92 23 41
xavier.ripart
@3s-informatique.com
All types of training will be provided: academic and business oriented.
It's all about creating a persistent virtual world as efficient as possible for learners and
teachers / trainers.
This plateform will be in SaaS access.
PARTNERS
◗ Development and dynamic setup of multimedia components that are able to capture,
SMEs:
3S INFORMATIQUE, TALEND
TELECOM PARISTECH
store, broadcast and receive video streams into the browsers.
◗ Development of a multimedia gateway able to broadcast, receive and synchronize digital streams (Synchronization, Parallel tasks, Real Time system).
◗ Implementation of the online office suite "Google Documents" into our gateway (Authentication, Integration of the documents to be edited, Recovery of the final documents).
◗ Achievement of a research engine for videos and pictures: Conventional research
based on "metadata" as stored in a database; Search by content, based on generating a signature for each image stored in the database.
PROJECT DATA
Coordinator:
3S INFORMATIQUE
Call:
FEDER 3
Start date:
October 2011
Duration:
13 months
Global budget (M2):
1.0
Funding (M2):
0.5
◗ The VUE project started in october 2010 with the kick off meeting. Its duration will be
13 months.
◗ The first software prototype will be quickly designed, under the Extrem programming
approach underlying the project. The first general meeting with the regional council
is planned for mid-june 2011.
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WAAVES GP
WAAVES GP
The main purpose of this project is to develop prototypes of an electronic component
embedding wavelet based Waaves image encoding technology to make it available for
mobile devices such as smartphones, netbooks and tablets. This hardware component
will have to take into account exsiting constraints related to this market, i.e, low
calculation power, reduced memory availability, low consumption and manufacturing
cost. On top of algorithm fine tuning, hotspot identification and memory management
study, different technologies will be evaluated like DSP, FPGA and SoC to identify the
best optimization to meet previously described criteria.
CONTACT
PARTNERS
As a breakthrough technology, Waaves
image encoding solution achieves very
high compression ratio while keeping
original image quality, including medical quality for diagnosis. As an example from a clinical evaluation, a native
Dicom chest X-ray of 10 MB will be
compressed to around 150 KB thus
dramatically decreasing transfer time
for remote access through telecommunication network from about
30 minutes down to less than 30 seconds. Waaves availability to mobile devices will enable on call physicians to receive
images on their smartphone from emergency units. Waaves components will also provide
solution to telemedicine programs like tele-expertise in the imaging specialties.
Waaves GP research project has been completed recently so all commercial outcomes
have not yet been validated at this time. However this project is considered with high interest by various electronic components actors like founders or mobile device manufacturers thus hopefully promising a successful future. This has already been confirmed
with two industrial contacts as described in the Business creation section.
Moreover a second phase project is schedule to industrialize the component and integrate additional features dedicated to animated sequences and video.
Waaves GP technical results:
• Concept validation and first version of Waaves algorithm.
• Source code fine tuning and optimization based on identify hotspots.
• Demonstration prototype based on a DaVinci board.
• Validation of encoding treatment compatibility with Waaves software version.
• Architecture identification for product industrialization.
◗ Job creation:
2 persons, including one person in charge of sales management and customer relationship with silicon manufacturers directly generated by Waaves GP outcomes.
2 industrial contracts have already been signed with 2 OEM French companies: a silicon
manufacturer and a mobile device manufacturer.
158
COMPLETED
PROJECT
Gabriel PORTILLO
PARTELEC
+33 (0)1 64 05 58 81
[email protected]
SMEs:
CIRA, PARTELEC
ENSEA, INSERM, LIP 6
PROJECT DATA
Coordinator:
PARTELEC
Call:
FEDER2
Start date:
March 2010
Duration:
12 months
Global budget (M2):
0.5
Funding (M2):
0.3
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WARM
Waaves Real-time Multimodal
ON GOING
PROJECT
WaRM project objective is to provide a system architecture on a chip that can embbed
WAAVES multi-modal encoding image technology on mobile devices and addresses the
video market. The underlying electronic architecture conception will have to start with
a study of video diffusion mechanisms and bandwidth optimization while protecting the
medical quality provided by WAAVES technology. Main new technological barriers are
sound integration, geographic localization and chip system resource management.
CONTACT
Gabriel PORTILLO
PARTELEC
+33 (0)1 64 05 58 81
[email protected]
The WaRM project is pattern writted to broadcast multimedia qualified contents. This
project is dedicated to solve the multimodality issue from the Waaves compression algorithm and his real time integration on mobile devices. It must allow to expand the Waaves
technology in e-Medical field
using low power devices as
smartphone or netbook. In
France , Antares network (low
data flow ) dedicated to security
department wishing to carry
both medical and operational
images have requested this
technology. This will complete
Medical mobile applications
demand.
PARTNERS
SMEs:
CIRA, PARTELEC
ENSEA, INSERM, LIP 6
PROJECT DATA
Coordinator:
PARTELEC
Call:
FEDER2
OUTCOMES
Start date:
May 2011
The WarM project bringing compression technology
without perceptual loss on embedded devices will be
used to broadcast video contents coming from the
Waaves algorithm.
This will qualify it on medical field adding multimodality
on Waaves, for example combining images with sound
and GPS localization.
Duration:
36 months
Global budget (M2):
1.0
Funding (M2):
0.7
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Wind energy Integration
by DC Network
WINPOWER project aims at developing a wide control strategy to manage large scale
High Voltage Direct Current (HVDC) multi-terminal networks that will interconnect
renewable energy sources (RES) to the main power network. Proposed work deals with
control strategies in a wide sense, from off-line optimization of network itself before its
construction; to real time, multi layered, decentralized stabilizing control that is
embedded into its components. This DC grid will allow for multi-RES generators
efficient interconnection, for example off-shore Wind Farms and solar plants. This DC
grid will also manage their connection to: the main AC grid; large loads (big cities or
industrial facilities); other DC grids like a future European SuperGrid.
◗ WINPOWER aims at defining successful conditions for connecting renewable energy
sources to the transmission networks (DC and AC). It is necessary to manage all the
chain from generation; intermediate energy storage (local or remote); multipoint
HVDC transmission (including the DC flows within the grid); connection to larger DC
grids (SuperGrid); interaction with the main AC grid.
◗ To reach these objectives, WinPower will develop several essential theoretical and
technological components:
• DC network modelling and estimation of its parameters.
• Distributed hierarchical control strategy from high level communicating multi-agent
systems, to low level adaptive and robust control schemes. This strategy assumes
several control modes (loops) at each AC/DC (or DC/DC) converter.
• Smart grid DC flows monitoring and control.
• Storage technology investigation: definition of what are the various candidate technologies for what energy amounts, how to optimize storage positioning in order to
ease network load.
• Energy Storage placing in
topology optimization and
simulation: defining and simulating the placement of
distributed and embedded
storage at various positions
within the grids.
• Energy Storage management
system communicating with
the grid.
WinPower will develop control tools that, based on weather forecast, load and price
previsions and remote system’s states information, will allow stable renewable energy
production. In other words, WINPOWER aims at defining successful conditions for
connecting renewable energy sources to the transmission network. Furthermore it will
also develop control algorithms for controlling DC flows within the DC grid, and its
interaction with the AC main grid or another DC Grid.
160
ON GOING
PROJECT
CONTACT
Gilney DAMM
EUROPEAN EMBEDDED
CONTROL INSTITUTE - EECI
+33 (0)1 69 85 17 68
[email protected]
PARTNERS
Large companies:
ALSTOM POWER, AREVA T&D
(ALSTOM GRID), EDF
SMEs:
WINNOVE
ARMINES, CEA, CNRS, EECI,
SUPELEC
PROJECT DATA
Coordinator:
EECI
Call:
ANR
Start date:
February 2011
Duration:
48 months
Global budget (M2):
3.0
Funding (M2):
1.2
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162-219 Security 2011:Mise en page 1
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Security & Defence
Working Group
Jean-Pierre TUAL,
WG President
[email protected]
GEMALTO
162
“2010 has been a successful year in consolidating the portfolio of
R&D projects, ensuring proper outcome of already completed
projects and developing the cooperation with several French and
European clusters. The INTERREG project “Signature”, that involves four European clusters and got full momentum in 2010
will be a key tool to stimulate SMEs participating to or leading
international collaborative research and innovation projects.
In 2011, we will amplify this internationalization effort, focusing
on the consolidation of these established links and also developing other available channels (e,g. EUREKA or EC programs)”.
The challenges of this Working Group are to provide the methodological frameworks, components and solutions needed (especially at ITC level) to ensure trust and security in highly complex
environments, such as critical infrastructures (transportation,
energy, decision-making centers, large cities) or complex transactional systems (e-government, e-commerce, national communication networks, payment systems)"
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NEW CHALLENGES
Citizens, companies, institutions, policy-makers and
governments are facing a new set of risks (Seveso,
health, natural, terrorism and cyber-terrorism, organized crime...) amplified by the major changes of
our society: development of megacities; widespread
e-commerce and e-government, globalization of trade
and services, generalization of user and data mobility.
These risks are related to:
◗ The concentration and mobility of large groups of people in sensitive areas (public places, railway stations,
airports): as a matter of example, 3 billion passengers
transit annually in the 30 largest airports in the world
◗ The growing dependence of our society in Information
and telecommunications technologies (ITC), that are
playing an increasing role in almost all areas of
pra-ctical life (health and wellness, commerce, citizenship, industry, transportation, trade, finance...)
◗ The globalization of electronic transactions (trade,
finance, etc...) in an ever increasing complex, ubiquitous and virtualized ITC environment, hence vulnerable to massive fraud or cyber risks and in which it
becomes always more challenging to create and
maintain trust and confidence among the various
stakeholders.
The above mentioned security risks cannot be treated
without significant innovations or breakthroughs in both
SW technology, methodological framework, architecture
and components, demonstrating the final ability to
ensure a trustworthy management of the large complex
systems addressed in the Working Group.
THE SECURITY & DEFENCE WORKING GROUP
WITHIN SYSTEMATIC
◗ 79 SMEs
◗ 6 ETI (Intermediate size company)
The Security & Defence Working Group is positioned on
four technology areas, called “Development Axes”:
◗
◗
◗
◗
Security Systems for goods and people
Jean-Louis SZABO,
Alexandre PIGEON,
WG Vice-President
[email protected]
CEA
[email protected]
SYSTEMATIC
ALCATEL-LUCENT
DEVERYWARE
FRANCE TELECOM ORANGE
GENITECH
INRIA
KEYNECTIS
MARTEC
MORPHO
TELECOM SUD PARIS
THALES
Bertrand MARQUET
Stéphane SCHMOLL
Vincent BAUDINAUD
Thierry BARITAUD
Didier PLAS
Brigitte DUEME
Christian BRAUT
Laurent BARATIER
Samuel VINSON
Hervé DEBAR
Daniel PAYS
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Security & Defence WG
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ADMIN PROXY
Certified security software project
for identity and access management,
users strong authentication, password
management and traceability
The goals of the AdminProxy project are:
◗ To provide a centralized network access control mechanism to IT resources allowing
for an SSO capability, meaning that with the same password the user can launch different services requiring distinct credentials.
◗ To develop the architecture along with the proxies for some selected protocols including ssh, telnet, rdp, and https.
ON GOING
PROJECT
CONTACT
Jean-Noël de GALZAIN
WALLIX
+33 (0)1 53 42 12 90
[email protected]
◗ To provide auditing, analysis, reporting, and tracing services on top of the architecture
enabling a transparent access control.
◗ networking experience for the user.
◗ To evaluate and certify the resulting core architecture.
◗ To test and experiment the resulting prototype.
PARTNERS
SMEs:
ALTERWAY, MANDRIVA,
OPPIDA, UNIVERSAL FLOWER,
WALLIX
The delivered system will:
◗ Provide application relaying and access control mechanism based on user strong
authentication and entitlements (ACL).
◗ Provide powerful traceability features through advanced logging and recording mechanisms.
◗ Guarantee a high level of robustness and availability through the clustering features.
◗ Guarantee security of target resources' information through signature and encryption
mechanisms.
◗ Deliver and certify a core engine that will be released as an open source software.
◗ Guarantee ease of deployment and user friendliness with an appliance driven through
a web interface.
PROJECT DATA
Coordinator:
WALLIX
Call:
FUI
Start date:
January 2008
Duration:
36 months
Global budget (M2):
3.5
Funding (M2):
1.6
Product requirements definition is over, as well as some "user stories"
following the Scrum methodology.
• The "security target" is being edited; it will define the specific components that will
be certified according to Common Criteria.
• Project has entered its main architecture design phase with core engine and first
proxies.
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Page 165
ADS+
Architecture de Difussion
sécurisée de Services
◗ ADS+ is an innovative project of 10.000 man/days labelled by the French Competitiveness
Clusters: TES and Systematic with the support of PICOM.
◗ ADS+ is lead by a Consortium of 13 companies and research laboratories. It started
in March 2010 following the APP FUI9 call of the French governmental framework to
sponsor innovation.
◗ Its main goals are to design and validate an open and standard architecture for IP
POI (Point of Interaction) with a thin client approach.
ON GOING
PROJECT
CONTACT
Jean Claude BARBEZANGE
ATOS WORLDLINE
+33 (0)2 54 44 72 58
jean-claude.barbezange
@atosorigin.com
◗ The main deliveries of ADS+ are:
• State of the art survey (payment, loyalty, POI managment).
• List of requirements (functional, security, performance, economic, ...).
• ADS+ architecture specification.
• Use cases global design.
• ADS+ component interfaces detailed specification, including the protocol between
POI's client and server.
PARTNERS
Large companies:
ATOS WORLDLINE, CEV
GROUPE CHEQUE DEJEUNER,
GEMALTO, GROUPEMENT
DES CARTES BANCAIRES
◗ Strong authentication for hardware Internet components: We design TLS based VPN
GALITT
with low-cost PUF (Physically Unclonable Function) for POI device as an alternative
to legacy X509 certificate solution. We design and develop an ad'hoc protocol, based
on Diffie-Hellman and Schnorr protocols to optimize the message exchanges and
limit credential storage inside POI terminal.
By doing so, the POI no longer stores keys
and thus the only sensitive component is
the PUF (that can not be cloned).
◗ Security formal proof about some critical
source code with engine portage from C to
Javacard
SMEs:
ELITT, MERCURY
TECHNOLOGIES, SIMULITY,
SPHERAGONE, XIRING
CEA LIST, ENSI CAEN,
HEI LILLE
◗ Design of an open architecture with Infrastructure service in charge of remote component authentication (PUF), service access
control (based on merchant contract),
client setup, secure software component
download & update & global monitoring
PROJECT DATA
Coordinator:
ATOS WORLDLINE
◗ Services Oriented Architecture: M2M ap-
Co-label:
TES
proach, mixing of critical services (with
command control and no break of the application & no-critical services, open services (legacy navigation). Orchestration of
several conditional services is included,
based on BPEL/BPMN approach.
Call:
FUI 9
Start date:
March 2010
The project is structured in WorkPackage (WP). WP 1 (state of the art and global
specification) is completed and some delivery items are available. The following WP 2
(detailled specification) and 3 (hardware and software development) are in progress in
parallel of WP6 (communication and dissemination). Negociation with EPAS.org to
endorce standard publication and recrutement of partners for life pilot and
demonstrators are in progress as well.
Duration:
28 months
Global budget (M2):
6.1
Funding (M2):
2.1
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Security systems for goods
and people
ASPIC
Aide par la Simulation à la Protection
des Infrastructures Critiques
◗ The goal of the ASPIC project is to develop the demonstrator of a help tool for the
positioning and deployment of sensors in order to optimize the protection of critical
infrastructure (airport, railway station, subway) in front of CBRN and fire threats.
◗ This tool allows to locate sensors in a 3D virtual site, to check their threat coverage and
their response to simulated chemical or fire threats. This demonstrator implements
as well a human behaviour module that allows to estimate the human damages due
to a threat according to various scenarios.
COMPLETED
PROJECT
CONTACT
Laurens DUDRAGNE
THALES SECURITY SOLUTIONS
& SERVICES
+33 (0)1 73 32 21 44
laurens.dudragne@thalesgroup
.com
◗ Help tool to design a detec-
PARTNERS
tion system to mitigate CBRN
impact.
Large companies:
BULL, THALES
◗ Assessment of the CBRN impact on human being and
countermeasures evaluation
BERTIN TECHNOLOGIES
SMEs:
PARALLEL GEOMETRY
MAJOR PROJECT
OUTCOMES
INERIS
◗ Products:
The application allows the
design of a detection system
(number of sensors, location,
time to detect). According to
the deployed sensor network
and alert detection time calculated for a given threat, the
simulation allows:
• To assess CBRN impact on
human being.
• To verify the countermeasures efficiency (air extraction, evacuation order).
From a technical point of view, thanks to this first version of simulation tool we were
able to:
- 1 Determine the calculation power needed for a realistic simulation;
- 2 Verify the relevance of the models and the required level of exactness;
- 3 Verify the relevance of the simulation of human behaviors;
- 4 Estimate the ergonomics necessary for the tool in case of non-specialist end-user.
For site safety/security purpose, this tool allows a sensitization of critical sites
manager in front of fire or CBRN events with the display of the threat propagation
within their infrastructure, the contaminated zones, the human impact.
This tool can also bring help to the drafting of intervention procedures, particularly
with the ability to simulate a crowd.
166
PROJECT DATA
Coordinator:
& SERVICES
Call:
ANR
Start date:
February 2007
Duration:
27 months
Global budget (M2):
1.5
Funding (M2):
0.8
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Broadcast Encryption
for Secure Telecommunications
ON GOING
PROJECT
In this project, we address the problem of securely and efficiently broadcasting digital
contents from a service center to a large group of users over an insecure channel in a
secure way. Protocols which adress this issue are Broadcast Encryption Scheme. This
problem is at the core of Pay-TV systems, on-demand video broadcast (VOD), mobile TV,
wireless networks, military radio communications, positioning systems (GPS, Galileo).
Our aim is to design new protocols which enables to send information to a dynamic
subset of receivers for a minimal cost (in terms of computational time, bandwith, memory). Two prototypes are to be realized to measure the increase of performance induced
by the new protocols:
• one prototype under Pay-TV constraints;
• one prototype under geolocalization constraints.
CONTACT
wiki:http://crypto.di.ens.fr
PARTNERS
Renaud DUBOIS
+33 (0)1 46 13 22 96
[email protected]
Large companies:
The expected benefits arising from BEST are numerous:
◗ Thwart piracy: deploying the new systems will result in asubstantial cut of financial
losses due to piracy;
◗ solve the low bandwith issue: The transmission rate and traffic key refreshment would
grow linearly with the gain provided by replacing the currently implemented solutions
with the new broadcast encryption protocols;
NAGRA FRANCE
SMEs:
CRYPTOEXPERTS
CASCADE (ENS), UNIVERSITE
PARIS 8
◗ enhances the quality of service and extends the capabilities supported by the service;
◗ scientific progress: the aim is to extend beyond the state of the art;
◗ provable security: security proofs constitute a scientific, convincing evidence that a
PROJECT DATA
given security level is realized.
Coordinator:
Call:
ANR
Start date:
January 2010
Duration:
48 months
Global budget (M2):
3.1
Funding (M2):
0.9
The current task is the development of the two first prototypes. Results have been
obtained: a new protocol has been defined and patented ("Procédé et système d'accès
conditionnel à un contenu numérique, terminal et dispositif d'abonné associés"), and
two publications on security notions and algorithmic tools been accepted: Security
Notions for BE (ACNS 2011, ENS), Efficient Multiplication in Finite Field Extensions of
Degree 5 (AfricaCrypt 2011, THALES-Paris 8). Three more are under submission.
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BINGO
Technological bricks
for Gamma Neutron Imaging
The project aims to develop technological building blocks of neutron detection
equipment such as a new photomultiplier, a new Gamma detector based on LaBr3
christal, a compact electronic for acquisition and images computation, a software able
to merge video, X-ray and neutron images. The different regulations on nuclear
activities are studied at french, european, and north american level in order to design
a compliant equipment. The final equipment allows detection of illicit or dangerous
materials such as Explosive, Chemical, Radiological and Drugs in an unattended lugage
or suspicious package. Portable, it will be used by bomb squad or Police in airports,
stations, or in open spaces. The final product will include a neutron generator, a X-rays
emitter and gamma and neutron detectors and also a flat panel to mesure X-ray.
COMPLETED
PROJECT
CONTACT
Karim SOUDANI
EADS-SODERN
+33 (0)1 45 95 71 30
[email protected]
PARTNERS
Large companies:
PHOTONIS, SODERN
Bingo’s deal was to get out from the laboratory the neutron analysis with associated particle
technology, which the ability to detect dangerous materials has already been demonstrated.
The benefits for this project were:
SMEs:
REFLEX CES
◗ The characterization of unknown gamma detector in neutron environment The development of a new miniaturized
electronics board with very good performances allowing
a global weight reduction of 16 kg for the equipment;
CNRS-LIMSI, IRSN
◗ The availability of a critical component for this technology
(a multi anode photomultiplier) has been increased;
◗ The imaging software with fusion of data has been presented to potential users in order to consider all their
operational constraints;
◗ The sanitary study has concluded to a negligible impact
regarding nuclear activation of the inspected objet.
Coordinator:
SODERN
Call:
ANR
Start date:
January 2007
Duration:
24 months
◗ Products:
A new product is born named ULIS for “Unattended Luggage Inspection System”. The
promotion of this equipment has just started and the customer interest (bomb squad,
police or security officer) is excellent in different location of the world. It is inducing information request, demonstration, trials to assess performance and usability of the
machine in real conditions. The first prototype produced during 2009 is presented to
the end-users involved in Bingo’s project in order to check different functionality and
operational usability. Second equipment will be produced by the end of 2010.
◗ Patents:
Not directly link to Bingo but in relation with ULIS.
A confidential trial based on explosive detection was conducted abroad last year with
local administration. The very good results obtain by ULIS open the door of new collaborations, new investments in science and technology to add innovative functions
as drug detection in collaboration with coast guards and customs or sensor integration on Robot. Four demonstrations were organized in France and abroad.
Sale network and distribution are studied, EADS-SODERN has a lot of choice and will
take time to select partners. Other information regarding business are sensitive and
cannot be delivered.
168
PROJECT DATA
Global budget (M2):
1.4
Funding (M2):
0.7
SIC, MOBISIC
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Digital trust Technologies
BMOS
Biometric Matching On Smartcard
ON GOING
PROJECT
Biometric authentication systems are based on comparison of a stored biometric
template with a fresh one. To increase the security of the authentication and the
protection of personal data, the Match-On-Card (MOC) paradigm has been introduced.
This consists on executing the comparison directly within a smartcard. Existing MOC
solutions have the following problems: the trade-off between execution time and
biometric error rates is not very good. And adding a security layer, as this is made for
cryptographic operations, is hard. In BMOS project, we aim to improve the current
situation by designing a hardware implementation enabling a fast and efficient
matching, with good biometric performance, while offering the protection of personal
biometric data thanks to a matching operation with integrated countermeasures
against side channel attacks.
CONTACT
Julien BRINGER
MORPHO
+33 (0)1 58 11 38 96
[email protected]
PARTNERS
Large companies:
MORPHO
BMOS project can be overviewed through three big steps:
SMEs:
SECURE-IC
◗ Analysing and designing a hardware architecture enabling the acceleration of a fingerprint matching with a low level of complexity and great biometric performances;
TELECOM PARISTECH
◗ Securing the implementation to achieve a high level of protection of personal data;
◗ Validating the effective security by internal evaluation.
With their respective expertise in, biometrics, smartcard software security, embedded
software security, electronic circuits countermeasures, the partners will contribute to
handle the following technical and scientific problems: vulnerabilities evaluation of MOC
against side channel and fault injection attacks; scientific research of needed countermeasures ; design and implementation of an architecture with low complexity fitting to
smartcard constraints while offering
high biometric performances and low
execution time.
Security of hardware implementations is
today mainly focused on cryptographic
operations and only a few on biometric
ones. Therefore, beneficial effects of
BMOS project could be on a scientific
side as on an economic side. The goal is
to create a technological breakthrough
that could be exploited in a short term: a
MOC technology, which would be efficient and ensuring protection of personal data.
PROJECT DATA
Coordinator:
MORPHO
Co-label:
IMAGES & RÉSEAUX
Call:
ANR
Start date:
November 2010
Duration:
36 months
Global budget (M2):
1.5
Funding (M2):
0.6
Main outcomes planned are:
◗ Description of an algorithm for accurate fingerprint comparison that is interoperable
with existing systems and adapted to an hardware implementation;
◗ FPGA prototype ensuring good performances (biometric errors and execution time);
◗ FPGA prototype ensuring in addition the security during the execution;
◗ Validation of the effectiveness of the security and the personal data protection by internal evaluations.
Partners are currently working mainly on 1&2.
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COP DRONE
Coordination et commande
d'une plate-forme de drones
These last years, miniUAVs arouse great interest for many applications, especially in the
field of civil security, major advances have been made. However, there are still areas for
improvement. This is the objective of COP-DRONE, for wider dissemination of such a
system.
◗ Users are nor experts in robotics, the ideal tool would be a "mobile sensor" in which
orders are given in a high-level of abstraction. Several levels of intuitive controls are
possible, from the simple tele-operated mode to an autonomous navigation mode.
ON GOING
PROJECT
CONTACT
Patrick RAYNAL
PY AUTOMATION
+33 (0)1 47 86 28 67
[email protected]
◗ The flight duration of a miniUAV is short and inconsistent with the requirments of
missions that could be entrusted.
Two technologies are studied in the project COP-DRONE: fixed wings UAVs and rotary
wings (helicopter and quadri-rotors) UAVs.
The technical objective of the project is to improve the autonomy of the miniUAV in term
of navigation and localization and to provide the user with high level commands to
operate the flying robot. Dedicated monitoring sensors, including Global Positionning
System (GPS) camera with large field of view (fisheye), inertial sensors (accelerometers,
gyrometers, magnetometers), and barometer are embedded in the flying robot and
related information is fused at several stages to produce a robust localization. This
redundancy will help the system in case of momentary degradation or loss of information (GPS signal reflection near buildings, poor vision context) from one of the sensors.
All this sensory information is processed incrementally when the UAV is flying and it
allows managing online a sensory memory map of the environment. The localization of
the drone is performed within this sensory map and adequate motion is generated
according to high level commands requested by the user: automatic stabilization over a
target, position or speed control, autonomous navigation over previously explored area.
PARTNERS
SMEs:
HYPERPANEL LAB,
PY AUTOMATION,
CEA LIST
PROJECT DATA
Coordinator:
PY AUTOMATION
Call:
FEDER1
Start date:
September 2010
Duration:
24 months
The integration of research results will help to remove the bolts which are already
limiting the use of minidrones in civil applications such as civil security, environmental
surveillance, architecture, tourism...
Global budget (M2):
1.2
170
Funding (M2):
0.5
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and people
DESCARTES
ON GOING
PROJECT
The project Descartes aims to design, develop and test an Emergency Management Information System.
The system incorporates a Command & Control Palteform for civil protection crises
and tools for the presentation and the processing of the information acquired or stored
in the system. In addition, the system provid a first functional framework for EMIS's Interoperability.
The system components are intended to support all the areas of responsibility including crisis management:
• Preparedness for disaster before it occurs (studies, protection, plans development,
training…);
• Response to the emergency situations (data acquisition, situation awareness, decision making, mobilization, action…);
• Restoration of the normal course of life (restoration of infrastructures, rebuilding…)
• After-crisis analysis;
• Mitigation and planning.
◗
◗
◗
◗
◗
◗
Command & Control systems for civil protection.
CONTACT
Guy PANAGET
AND SERVICES
+33 (0)6 08 36 45 90
[email protected]
PARTNERS
Large companies:
THALES
SMEs:
GEO212, GEOCONCEPT, MASA
CEA LIST, CEA DAM
Interoperability.
Adaptative HMI.
Autonomous and interactive human behavior modélisation and simulation.
Physical pehnomena simulation.
PROJECT DATA
Coordinator:
THALES
3D representation of geographical information.
Call:
FUI5
Start date:
July 2008
Duration:
36 months
Global budget (M2):
6.4
Funding (M2):
2.3
MOBISIC, SIC
◗
◗
◗
◗
◗
Command & Control platform for civil protection.
Functional Interoperability framework for Emergency Information Management Systems.
Autonomous and interactive human behavior simulators.
Physical pehnomena simulators.
GIS (2D and 3D visualization).
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Development and Industrial Application
of Multi-Domain Security Testing Technologies
◗ DIAMONDS will leverage systematic, model-based testing and monitoring approaches for security testing to enable highly secure systems by early testing and
test automation. Advanced model-based security testing methods will allow the early
identification of design vulnerabilities and efficient system/test design targeting security aspects.
◗ The DIAMONDS security test methodology will be adaptable to different multidomain security standards, and enable a risk analysis-oriented test generation and
risk assessments by evaluation of the test results.
◗ DIAMONDS will develop a well-visible European security test methodology of industrial scale, which demonstrates to be successful for security-critical systems in different application domains.
◗ DIAMONDS will introduce four main innovations in the field of security testing methods and technologies. These innovations aim at building a pre-standard for modelbased security testing targeting heterogeneous and distributed systems and services
and represent the enabling technology necessary for the introduction of formal security testing in industry:
• Advanced model-based security testing methods that
combine different techniques
to obtain improved results applicable to multi-domain security.
• Development of autonomous
testing techniques based on
automatic monitoring techniques to improve resilience of
dynamically evolving systems.
• Pre-standardization work on
multi-domain security test
methodologies and test patterns allowing DIAMONDS to offer interoperable security test techniques and tools.
• Open source platform for security test tool integration.
◗ Through these innovations we will strengthen the practices of security testing, stimulate a more wide range use of security testing in projects of different domains and help
improve the quality, with respect to security, of the systems developed, reducing the
security risks and the risk related costs during operation.
ON GOING
PROJECT
CONTACT
Michel BOURDELLES
+33 (0)1 46 13 30 38
michel.bourdelles
@fr.thalesgroup.com
PARTNERS
Large companies:
ERICSSON (FIN), GEMALTO (FR),
GIESECKE & DEVRIENT (GER),
METSO AUTOMATION (FIN),
NORSE SOLUTIONS (NOR),
THALES (FR), TRUSTEDLABS
(FR)
SMEs:
CODENOMICON (FIN),
CONFORMIQ (FIN), CONSULTING
(GER), DORNIER FSCOM (FR),
ITRUST (LUX), MONTIMAGE (FR),
SBA (AUSTRIA), SMARTESTING
(FR), TESTING TECHNOLOGIES
(GER)
FRAUNHOFER FOKUS (GER),
GRENOBLE INP (FR),
OUSPG (FIN), SINTEF (NOR),
TELECOM SUDPARIS (FR),
TU GRAZ (AUSTRIA), UL (LUX),
UNIVERSITY OULOU (FIN),
VTT (FIN)
PROJECT DATA
Coordinator:
FRAUNHOFER FOKUS
Call:
ITEA2
Start date:
October 2010
Most areas of the DIAMONDS project are still in the study phase. A state of the art
regarding security testing techniques and tools is being elaborated and the project case
studies are under analysis to derive relevant multi-level security requirements. Some
directions are emerging to integrate partner testing tools within the end user case
studies and the Diamonds platform. Standardization groups and organisms are being
identified and contributions are planned.
Duration:
30 months
Global budget (M2):
13.7 (EU) & 4.4 (FR)
Funding (M2):
2 (FR)
ESTER, VERDE
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Elliptic Curve Leakage-Immune
Processing for Secure Embedded
Systems
ECLIPSES is meant to address the limitations met in the embedded security industry
by providing a breakthrough design of the Elleptic curve processing which support:
◗ field operations: binary, ternary, etc. and prime fields alike;
◗ (higher-level) operations on the Elliptic curve itself such as point addition, point doubling or alternately point halving, point tripling, etc;
◗ efficient conversions between coordinate systems (projective, cartesian, Jacobian,
ON GOING
PROJECT
CONTACT
Yvon GRESSUS
GEMALTO
+33 (0)1 55 01 59 96
[email protected]
Edwards, etc);
◗ any type of curve i.e. any choice of curve coefficients;
◗ efficient evaluation of pairings for pairing-friendly curves;
PARTNERS
while
◗ improving execution time by an order of magnitude when compared to prior implementations based on RSA-dedicated cryptoprocessors;
◗ providing a high-level of resistance against all known side-channel analysis and faultbased attack.
Large companies:
GEMALTO
SMEs:
CRYPTOEXPERTS, INVIA
CEA-LETI, UVSQ
◗ One important challenge regarding the project is to drastically improve the ECC processing performance in relationship with the power consumption budget. ECC processing based on modular multiplication accelerator takes time as opposed to the
contact-less requirement to perform a full transaction as fast as possible in reduced
power consumption. This forbids the use of EC cryptography in contact-less applications today. The target of the project is to overcome limitations by using an EC-dedicated processor supporting the contact-less mode by reducing the execution time
and taking into account the high constraints on power consumption.
◗ Elliptic curves became popular well after the appearance of RSA-based algorithms.
As both are sharing modular representations, elliptic curves are currently developed
on the same RSA hardware basis. ECLIPSES also considers ECC pairings; the breakthrough is to create a dedicated solution which takes advantage of the particularities
of the curves (smallest granularity for key size, …). A significant improvement could
be here targeted.l
PROJECT DATA
Coordinator:
GEMALTO
Co-label:
SCS
Call:
ANR
Start date:
December 2009
Duration:
36 months
Global budget (M2):
2.8
After one year, the fundamental theory work has been performed on ECC and protocol
that should be used in embedded system. Algorithms and elementary operations have
been identified allowing to work on hardware software partitioning and laying the foundation for basic elements that will constitute the hardware accelerator for ECC processing.
Funding (M2):
1.1
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E-FRAUD BOX
Detection and Investigation of
credit card fraud on the Internet
The E-fraud Box project aims at developing an integrated toolbox, dedicated to detection and investigation of credit card fraud on the Internet. This toolbox is based on:
◗ machine learning algorithms to model fraudulent behaviours, to follow the dynamics of the fraud and to study interactions between transactions;
◗ detection and investigation engines to combine model results.
At the end of the project, these engines will be used to:
◗ detect as soon as possible cards used fraudulently on the Internet;
◗ build sets of indicators that characterize fraudulent behaviours and fraud scenarios;
◗ identify new fraud behaviours and new modus operandi.
ON GOING
PROJECT
CONTACT
Stéphane LORIN
FRANCE
+33 (0)1 69 41 55 05
[email protected].
com
PARTNERS
Solutions to the following problems will be particularly investigated:
◗ Rare events and very unbalanced data : structural and adaptative sampling methods
and AUC (Area Under Curve) criteria optimization;
◗ Fraudulent behaviour characterization: Typicality and exception analysis, custering
methods, kernel methods with one class;
◗ Fraud dynamics: concept drifting and evolutive prediction of behaviour;
◗ Interaction data: social network mining, collective inference and adversial computing,
co-clustering and latent variable graphical models.
Large companies:
CENTRE TECHNIQUE DE LA
GENDARMERIE NATIONALE,
DIRECTION GÉNÉRALE DE
LA GENDARMERIE NATIONALE,
DIRECTION GÉNÉRALE DE
LA POLICE NATIONALE,
GIE CARTES BANCAIRES CB
SMEs:
ALTIC, KXEN
LIP6, LIPN
PROJECT DATA
Coordinator:
Co-label:
CAP DIGITAL
Call:
ANR
Start date:
February 2010
Duration:
36 months
◗ Project launched on the 12th February 2010.
◗ Tasks under progress:
Global budget (M2):
3,4
• State of the art;
• End-users needs;
• Data collection (1 million transactions per day).
Funding (M2):
1,2
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ESPRI
Exposition de soi, Privacy et Réseaux d'interaction
ON GOING
PROJECT
The Project ESPRI analyses problems raised by the collection of personal data and
intrusion of privacy at the era of online social networks. The use of the internet as a
platform for social interaction does indeed pose new problems. The collection of
personal data has become mostly decentralized making the internet an open mine of
data on individuals. The behaviors of internet users are ambivalent, seeking protection
while being quick in practice to give voluntarily or involuntarily sensitive data. These
changes reflect the fact that the Web has evolved into a participative web. What happens
to privacy issues and how to regulate them when the transfer of personal data is the
product of social interaction on digital platforms whose economy is based on the
exploitation of these data?
CONTACT
Alain RALLET
UNIVERSITE PARIS-SUD 11
+33 (0)6 62 43 46 83
[email protected]
PARTNERS
Large companies:
ORANGE LABS
The analysis of the privacy policies will be carried out by several methodologies: Analyse
of econometric data, lab experiments, and qualitative interviews. Quantitative analysis
of trials should allow us to test the hypothesis of the evolution of privacy issues since
the 90s. The second aspect concerns the self-exposure on the internet. Understanding
this behavior is essential to understand the current privacy issues. We will analyze the
transformation of immodesty on online social networks. The weakening of the feeling
of shame takes several forms, so using qualitative interviews will enable us to analyse
the motivations for the various forms of immodesty on the internet. This study will be
extended by an economic analysis of the dilemma between risks and benefits (created
by online services) that includes self-exposure on digital networks, using various
methodologies (i.e. quantitative survey of two populations, lab experiments and qualitative interviews). A final study will analyze the behavior of individuals against the appropriation of location-based services that pose important problems associated with
the traceability of individuals.
CERDI, UNIVERSITE PARIS
SUD 11
The main outcome of the project is to build several scenarios tailored to the legal issues
of privacy on digital networks seeking new points of equilibrium between the evolution
of individual behavior, new business models and compliance with general principles.
The expected outcome of the project is to help guide the necessary regulation of
identified problems. Many options are indeed possible ranging from self-regulation to
the need for new legal instruments.
PROJECT DATA
Coordinator:
Co-label:
CAP DIGITAL
Call:
ANR
Start date:
November 2011
Duration:
24 months
Global budget (M2):
1.3
Funding (M2):
0.38
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Evolution of the security
in the telecommunications
and network equipments
Some attacks are targeting telecommunications infrastructures in order to take control of
network nodes or to take advantage of security breaches of network management protocols. Current protections are mainly based on cryptography and tend to protect exchanged
data confidentiality but failed in preventing consequences of a corrupted infrastructure node.
The project defined a new way of protecting infrastructures by integrating within nodes an
electronic vault or “trusted computing base” providing a new dimension of trust by:
◗ integrating devices with a high security assurance,
◗ evaluation of the effectiveness of the protection provided by the integrated security solution.
The project led to significant advances including:
◗ Improvements in security features of the OSPF
protocol:
• Fight against cryptanalysis,
• Possibility to use an HMAC,
• Protection of secrets.
◗ Security improvements in OSPF based infrastructures:
• Generation of forged packets impossible.
• Protection of the election of "designed router
/ backup designed router".
• Management of the metric to avoid possible
cost modifications.
• Secret protection and integrity of the databases ensuring the non-propagation of attacks
on infrastructure elements.
The results demonstrated on OSPF can be applied to a number of protocols and security features of the telecommunications infrastructure. A study has been provided to illustrate the
contribution of the solution on already secured protocols ie S-BGP.
CONTACT
José ARAUJO
ALCATEL-LUCENT
+33 (0)1 30 77 26 20
[email protected]
PARTNERS
Large companies:
ALCATEL-LUCENT,
TRUSTED LABS,
TRUSTED LOGIC
SMEs:
OPPIDA
TELECOM PARISTECH,
TELECOM SUDPARIS
PROJECT DATA
Coordinator:
ALCATEL-LUCENT
Call:
ANR
◗ Products:
The smartcards, protecting the control elements and the network management without a
significant degradation of the routers performances, provide protection against attacks that
intend to use, destroy or falsify critical elements for the infrastructure resilience. They can
contain these attacks to the router under attack preserving the resilience of infrastructure.
The smartcard introduce a new level above the control plane in which are kept the secrets and
the sensitive operations: the trusted plan.
◗ Patents:
1 patent.
◗ Publications:
In addition to the publications in conferences, the project has issued two significant results
in terms of standardization:
• Proposition of two "IETF drafts", one describing the trust plan, the other a system of TLS
key generation.
• Certification and publication of a protection profile by the the "French Network and
Information Security Agency" respecting the ISO15408 standard.
The results have been fully demonstrated with OSPF and can be applied to a number of protocols and security features of the telecommunications infrastructure. A study has been
provided for S-BGP.
176
COMPLETED
PROJECT
Start date:
December 2006
Duration:
36 months
Global budget (M2):
2.6
Funding (M2):
1
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Federation of Circles of Trust
and Secure Usage of Digital Identities
The main purpose of the FC² project is to drive innovation in user-centric identity management
through a cross sector vision. This resulted in two major types of objectives:
◗ R&D objectives:
• Develop and validate a comprehensive and INTEROPERABLE set of architecture and software
components, allowing new SECURE digital online services based on enhanced USER-CENTRIC
identity management.
◗ Implementations objectives:
• Propose and develop prototype experiments to evaluate the resulting BENEFITS for all players
in the ecosystem.
• Investigate innovative governance and business models for a new TRUST framework incorporating
privacy-enabled Identity Federation and allowing the seamless interconnection of Circles of Trust
(CoT).
The project has delivered an innovative e-identity management infrastructure able to:
◗ guarantee the confidentiality of e-transactions based on federated identity,
◗ support the full dematerialization of electronic services, including digital signature mechanisms,
◗ support advanced authentication mechanisms, including delegation accros Circles of Trust,
◗ allow the end user a complete control of its personal data in a distributed context,
◗ ensure a high-level of protection against all types of Identity frauds,
◗ guarantee a high-level of user friendliness for service access,
◗ ensure minimal operation costs for Service Providers and Operators,
◗ guarantee a technical neutrality versus Identity management standards (Cardspace, Liberty Alliance).
COMPLETED
PROJECT
CONTACT
Jean-Pierre TUAL
GEMALTO
+33 (0)1 55 01 61 60
[email protected]
PARTNERS
Large companies:
AMADEUS, ATOS WORLDLINE,
EADS DS, FRANCE TÉLÉCOMORANGE LABS, GEMALTO
CEV GROUP (CHÈQUE
DÉJEUNER)
SMEs:
CONSTRUCTIVECARD
TECHNOLOGIE, DICTAO,
ENTR’OUVERT, EPHI
FORMATION, ILEX, LEIRIOS,
NTX RESEARCH,
SMARTESTING, XIRING
Prescribers:
GIE-CB, MINISTRY OF INNER
AFFAIRS
◗ Products:
The project has delivered advanced e-identity management components enabling new capabilities such as seamless authentication, Interoperability of most popular e-identity management
technologies, new user interface based on an Infocard selector, available on PC, Mobile and “in
the cloud”. Is has also demonstrated enhanced smart-card support through low-cost pinpad
readers, compatible with the identity selector and supporting the most advanced version of the
IAS-ECC or EMV standards. Enforced trust and security features have also been introduced
through innovative PKI concepts and direct digital signature support.
◗ Services:
The project has produced several white papers or guidance documents related to the global e-Identity
ecosystem.
◗ Publications:
The project has generated over 10 scientific publications and participated to numerous National
or European conferences, exhibitions and round tables.
Several use cases have been developede in the project, demonstrating generic, complex service
dematerialization scenarios pertaining to the e-government, regional, financial and telecommunication domains.
The setting-up of these scenatios has been done in close cooperation with either national Agencies (such as the ANTS), local city-administrations (city of Saint-Lô), external industrial partners
(bank and car rental companies), the Ministry of Inner Affairs and the Caisse des Dépôts (“CDC
Numérique”).
The research and technology concepts as well as the components developed in the project are now on
the full exploitation path. Besides inclusion of these concepts or components in the direct product offer
from the industrial partners, a large national initiative has been launched with “CDC Numérique” to prepare the deployment of a mutualized e-Identity infrastructure targeting especially local administrations
(cities, regional councils). This initative is fully endorsed by the Systematic, SCS and Pôle-Tes competitiveness clusters.
CNAM, ENSI CAEN, TELECOM
MANAGEMENT SUD PARIS
PROJECT DATA
Coordinator:
GEMALTO
Co-label:
PÔLE TES
Call:
FUI3
Start date:
July 2007
Duration:
30 months
Global budget (M2):
16.6
Funding (M2):
6.2
PERSOPOLIS
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KIVAOU
KIVAOU - Analyse de séquences vidéo
COMPLETED
PROJECT
The KIVAOU project aims at developing innovative tools dedicated to two main goals:
◗ Mobile facial identification and biometric indexation tool (suitcase), with real-time
video analysis
◗ Platform for offline multiple video analysis of an event. These video are recorded during
a particular event, and then collected for investigation purpose. After synchronisation
between different sources, an analysis is performed in order to extract individual signatures, and to compute person's trajectories. The goal is to enable or to facilitate an
offline analysis, for investigation purpose.
The KIVAOU project proposes innovative approaches based on the combination of components already mastered by each partner: biometrics, image analysis, video analysis,
tracking, synchronization, users GUI needs, etc. It includes a test phase with end-users.
◗ Face recognition and face tracking
• Improvement of the face quality by using surresolution.
• Selection of the best in term of quality, orientation and precision of series of images
◗ Pedestrian tracking
• Segmentation in region of interest, extraction of moving edges with morphological
space-time gradient or background difference.
• Classification of the forms in classes: pedestrians, groups.
• Algorithm for components separation of the groups.
• Definition of signature based on the keypoints stored in KD-Tree for the multi camera
re-identification.
CONTACT
Samuel VINSON
SAGEM SECURITE
+33 (0)1 58 11 34 71
[email protected]
PARTNERS
Large companies:
SAGEM SECURITE
SMEs:
EVITECH, FACING-IT
ARMINES,
INSTITUT TELECOM
Institutions:
CTSI
PROJECT DATA
Coordinator:
SAGEM SECURITE
Call:
ANR
Start date:
February 2008
Duration:
29 months
Global budget (M2):
1.7
Funding (M2):
1.1
◗ Experimentations: 2
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Physical safety technologies
Localisation en Environnement Adverse
ON GOING
PROJECT
◗ The LEA project will benefit from TOCHA's inroads while specifically targeting to give
a new and innovative advantage to law enforcement and security forces. It will also
operate in desert or maritime areas with scatered or no ground communication
coverage. The consortium gathers the best specialists in electronics, software,
antennas, and software platforms. Its steering committee will include a panel
of typical uses of such new generation beacon. Tracking of vehicles, objects, and
people can prevent and protect against various risks and threats.
CONTACT
Antoine GUENIN
PHOTOSPACE
+33 (0)9 51 31 06 80
[email protected]
◗ The TOCHA project, started early 2008, will have demonstrated the feasibility of longtime, continuous tracking in multiple conditions, facing adverse physical constraints.
But it was not conceived to face adverse scrambling, which has become a constantly
growing fact, and now needs improvements.
PARTNERS
SMEs:
DEVERYWARE, PHOTOSPACE,
SYSNAV,
◗ The main technological innovations lie in the capabilities to use several technologies
ITER
to locate the beacons. The first one, called magneto-inertial location, is based on
inertial navigation techniques which sensors are composed of gyroscopes and
accelerometers. The new MEMS (Micro Electro Mechanical System) offer the opportunities to create miniature inertial sensors at a very low cost. Those small devices
open perspectives for a wide range of applications including drone piloting and car
driving.
◗ An another technology studied to locate beacons is the triangulation of RF signals
emitted from FM base stations. This way, the beacons could be targeted in a range
of several kilometers. Adding an inertial platform and a magnetometer would
furthermore bring new information like trajectories directed towards the magnetic
North.
◗ Finally, the use of the WIFI lan would allow the analyse by servers of routers and WIFI
spot MAC addresses to target beacons with a good precision in an urban environment.
PROJECT DATA
Coordinator:
PHOTOSPACE
Call:
ANR
Start date:
December 2009
Duration:
31 months
Global budget (M2):
1.6
Funding (M2):
0.7
TOCHA
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LOCINDOOR
LOCalisation and personal navigation
system in INDOOR environment
In rescue operations, it is essential for commanders to track the location of the first
responders engaged inside a building; but nowadays no indoor positioning solution exists.
The objective of LOCINDOOR is to develop an indoor localisation and navigation system
that provide real-time location positioning inside buildings, with personal navigation
feature and holder location tracking facilities.
LOCINDOOR as personal indoor navigation system will offer a positioning and guidance
solution inside buildings, Where and When GPS is not reliable.
Without preinstalled infrastructure, based on motion sensors worn on body and a 3D
numeric building cartography, the system is totally autonomous.
◗ Motion sensors development with fusion algorithms and map-matching to establish
precise location.
CONTACT
Hervé MOKRANI
CASSIDIAN
+33 (0)1 61 38 84 95
[email protected]
PARTNERS
Large companies:
CASSIDIAN
MARTEC
◗ Numeric cartography edition
and loading on PDA with wireless link technology at the building access.
SMEs:
MOVEA, ROBOSOFT-PGES
ARMINES, CEA LIST
◗ Man Machine Interface and navigation Graphical User Interface
development (Running on a PDA).
◗ Secured voice and data communications between Security resources and the Command and Control Position, to
transfer locations and keep contact with the field operation.
◗ Automatic Location display of the team members on a building map.
◗ Fixed and mobile cameras picture fusion in the Command and Control Position to
help positioning tracked people.
PROJECT DATA
Coordinator:
CASSIDIAN
Call:
FUI5
◗
◗
◗
◗
◗
◗
System technical requirements defined.
System architecture and communication interfaces defined.
Specific building 3D cartography defined.
Start date:
June 2008
Duration:
36 months
Global budget (M2):
6.3
Motion sensors integration ongoing.
Location algorithms tuning ongoing.
GUI and navigation algorithms development ongoing.
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ON GOING
PROJECT
Funding (M2):
2.5
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and people
MANIF
New aerial devices for identification in the crowd
COMPLETED
PROJECT
The goal of MANIF project is to study the interest of air devices (like for example UAV) in
the context of crowd conflict. This function "height view" is investigated as far as all the
information can be coordinated and the systems are compatible. The air platforms must
be defined with on board sensors, communication networks, and command tools in
accordance to operating needs in global security.
The project is divided into three phases:
CONTACT
Amandine VERDIER
BERTIN TECHNOLOGIES
+33 (0)1 39 30 61 74
[email protected]
◗ a phase of analysis of the need, the definition of the specifications and the choice of
a scenario (9 months);
◗ a research phase study and development defining the architecture system
(10 months);
◗ a phase of realization of a simulation for demonstration of the interest of the function
“height view” (7 months).
PARTNERS
BERTIN TECHNOLOGIES,
MARTEC
PROJECT RESULTS
SMEs:
COGISYS, PY AUTOMATION,
SOFEMA
◗ Technologies:
• This project deals with the improvement of aerial vehicles used during
the operations of maintenance of law
and order in the context of crowd
conflict by combining analysis and
simulation. It has for objective to define a concept of use and the systems
recommended for the implementation of a real-time surveillance, in direct connection with the authorities.
• The main crowd movements can
be classified in 3 groups: dynamic
events (movement of protest like
march or entertainment event like
musical event), static events (for
example sporting event in a stadium;
politic events like G8) and urban violences (spontaneaous movement in
variable areas). The reserved scenario is the one urban violence representing the most complex case to be mastered (impossible anticipation,
progress mainly by night, localization unpredictable).
• The main specifications of need directed the choice of the air platform to a mini drone
or MAV Micro Aerial Vehicle (simple, intuitive operation requiring minimal operator
training, deployment and stowing operations accomplished rapidly, less expensive
than a helicopter, capable of doing day and night observation in urban areas, real-time
video system for real-time surveillance) with the possibilities of transmissions represented on the illustration.
• Two complementary devices in terms of observation have been proposed: one developed by Py Automation (Fixed Wing, high altitud, speed and endurance) and another
by Bertin Technologies (Vertical takeoff and landing enables “hover and stare” mission profile but with lower endurance compared to Py Automation device).
TELECOM BRETAGNE
PROJECT DATA
Coordinator:
BERTIN TECHNOLOGIES
Call:
ANR
Start date:
February 2007
Duration:
27 months
Global budget (M2):
1.2
Funding (M2):
0.8
• The developed simulator demonstrates the interest of the”vision of the sky” for a better
and faster coordination of the operations to the ground of maintenance of law and order.
• Besides, this simulator could, after evolution and individual adaptation, become an
innovative tool, particularly well adapted for applications in the field of the training to
the use of drones within the framework of missions of surveillance / control of the
violence, in France and abroad.
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MA-NRBC
Moniteur d'alerte MA-NRBC
(CBRN Alert Monitor)
◗ MA-NRBC project aims to develop an alarm integrating CBRN risks (Chemical, Biological, Radiological, Nuclear) such as “dirty Bomb” or any biological or chemical
attack of terrorist origin. This system contributes in securing the critical infrastructures (ministry, parliament), public places (airport, station, subway, stadium, etc.) or
headquarters of sensitive organisations (UNO, EU parliament, etc.).
◗ It consists in putting into network operation and exploitation of sensors being deve-
COMPLETED
PROJECT
CONTACT
Jean-François MOREAU
SAPHYMO
+33 (0)1 69 53 73 13
[email protected]
loped and supplied by different partners of common project (Saphymo, CEA, BERTIN
and PROENGIN). It also allows to take samples which could be necessary to eliminate
any doubt in case of alarm activating.
◗ The sensors have a common communication interface which allows an easy opera-
PARTNERS
tion thru the supervision software.
MA-NRBC project consists of finalising a demonstrator which has the following advantages:
◗ The Saphymo/CEA common development has shown that it was possible to detect and
discriminate gamma and neutron radiation thru use of basic plastic scintillator, which is
normally used for gamma detection only.
BERTIN
SMEs:
PROENGIN, SAPHYMO
CEA
◗ Bertin has adapted the existing technology Coriolis® dedicated from biologic to chemical
samplings.
◗ ProEngin has shown the feasibility of the biological and chemical detections in one sensor only with a maintenance reduced for biological detection.
PROJECT DATA
Coordinator:
SAPHYMO
Call:
FUI4
◗ Products:
Start date:
December 2007
• The equipment developed within MA-NRBC project allows to cover all risks (Chemical, Biological, Radiological, Nuclear). It enables all partners to propose to their customers a global offer, which represents a highly advantageous integrated solution
with unique supervision and always remaining adjustable.
• The different elements of the system can be proposed separately. For example, the
biological and chemical sensor associated to a radiametric probe represents a
compact solution which allows to cover the R, B, C risks and may be reinforced for
problem resolution by biological and chemical collectors.
• The MA-NRBC project allows Saphymo to present a product range to respond to all
NR risks in the frame of “global security”.
• The current technology to detect the fissible materials is based on Helium 3 detectors. There is currently a shortage of Helium 3. Gamma/Neutron plastic scintillation
detector represents a promising alternative solution especially for Saphymo.
• The alpha, beta, gamma aerosol monitor will be an additional element to be proposed as an option. In fact, in case of attack (or serious nuclear accident), the environment will be the first exposition way for people. That is why the analysis of
aerosols (solid particles in suspension in the air) has to be reinforced. Moreover, the
risks covering will be reinforced by use of GammaTRACER monitors with data transmission by radio and supervised by PC in order to control the ambient radioactivity.
◗ Patents:
The CEA has developed two algorithms that have resulted in two patents. The first is
about the method for neutron/gamma discrimination on the solid organic scintillators.
The second one is about the stabilisation of photomultipliers' saving. The last is important for the quality of measurements.
182
Duration:
24 months
Global budget (M2):
3.8
Funding (M2):
1.4
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Méthodologie d’évaluation
des algorithmes d’exploitation des
enregistrements de la vidéoprotection
◗ Video protection systems include video recorders dedicated to forensic, and formal
proof constitution. Time spent by operators to retrieve specific video data in such
large volumes can be very long. This research time is critical, with a direct impact on
safety and security of citizens.
◗ The objective of METHODEO is to define methodologies to characterize various video
analysis algorithms performing the same functionality from a set of descriptive parameters of observed scenes. Those parameters will be adaptable to various scenes,
and will describe both the content and the context of the scene.
◗ Specification of video for testing in terms of content and conditions vs. a difficulty
level mark.
◗ Ability to measure the genericity of video sequences (same behavior of an algorithm
on two sequences having the same description).
◗ Recommandations on the annotation process regarding the format and the influence
of a semi-annotation process on performance evaluation.
ON GOING
PROJECT
CONTACT
Sophie CHAGUE
THALES
+33 (0)1 69 41 59 98
[email protected]
PARTNERS
Large companies:
THALES
SMEs:
KEENEO
CEA, IRIT, SUPELEC,
TELECOM SUD PARIS
PROJECT DATA
Coordinator:
THALES
Call:
ANR
Start date:
April 2011
Duration:
24 months
Global budget (M2):
2.8
Kick off meeting april 2011.
Funding (M2):
1
QUASPER
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MOBILAO - Digital Signature in Mobile
Environments - by Dictao
In a context of increasing user-oriented mobile applications and rising paperless technologies, digital signature becomes the keystone of the trusted ecosystem in the individual exchanges and the heart of the challenges for a modern society.
The objective of the MOBILAO project is to:
◗ Develop an architecture, a trusted secure platform and an "electronic signature book"
CONTACT
Christian KUHN
DICTAO
+33 (0)1 73 00 26 94
[email protected]
application enabling new services based on digital signature over a smartphone,
◗ Implement this application in demonstrators targeting eGovernment services, B2B
services and C2C services.
PARTNERS
SMEs:
DICTAO
We managed to reach the target we set in 2009:
◗ Build on existing but isolated technologies in order to achieve a universal platform,
open, but at the highest level of security that may be certified by official bodies.
Concretely this means:
◗ Validate new security concepts (dispersed secrets, mobile containers…) and human
interface technologies and get the feedback of our today clients.
◗ Interface the Dictao Electronic Signature Book with the other trusted functions such as:
• Strong authentication means (such as OATH) and Access Control Server (such as
Dictao DACS product);
• Electronic Vault giving legal-binding value to archived document (contracts for example) signed on an mobile device.
PROJECT DATA
Coordinator:
DICTAO
Call:
WEB2.0
Start date:
January 2010
Duration:
15 months
Global budget (M2):
0.8
◗ Patents:
Funding (M2):
0.3
1 Patent is in progress.
• Development of the new product Dictao Electronic Signature Book, already sold and
deployed by the General Council of Seine-et-Marne and Ubifrance.
• Development of an enhanced Eletronic Signature Book for online Banking and online
contracting on an iPhone and on an iPad (in pilote phase in few banks)
• Development of innovative security mechanisms to guaranty the same trust in a mobile environment as in a tarditional fixed environment.
• Development of an interface
to the Dictao Secure Storage
Server (D3S) to archive document signed in the Electronic
Signature Book and garanty
their legal value over the years.
• Development of an interface
to the Dictao Access Control
Server (DACS) to enable
OATH mobile authentication.
◗ Job creation:
• 1 Program Manager,
• 1 Senior Architect,
• 5 Development Engineers,
• 2 interns.
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PROJECT
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and people
Mobile Securization System
for Critical Infrastructures
MOBISIC project deals with both local crisis (attack bombing in urban environment, in
confined space such as an underground train tunnel …) and specific event securisation
(football world cup, political meeting …).
It consists in conceiving, developping and experimenting a mobile, modular ('plug and
play') and multi-sensors securisation system.
Capacity of fast deployment by non-specialized operators and high energetic autonomy
are key features of the system.
◗ Development and validation of an automatic discovery of heterogeneous sensors solution (plug and play architecture)
◗ Fast sensor integration to a mobile C2 with a wireless broad band connexion
◗ On live experimentations with Police Force and First responders (ENSOP, SDIS 77)
◗ Incresing of Technology Readiness Level in the field of indoor and outdoor UAVs, indoor localisation system, NRBCE sensors, on the move facial biometry, contact less
authentification system, intrusion detection system based on video and audio analysis.
COMPLETED
PROJECT
CONTACT
Sophie CHAGUÉ
THALES
+33 (0)1 69 41 59 98
[email protected]
PARTNERS
Large companies:
ALCATEL-LUCENT, BERTIN
TECHNOLOGIES, GEMALTO,
MORPHO, THALES, SODERN
SMEs:
EVITECH, MAGELLIUM,
POLE STAR,
CEA, INRIA
PROJECT DATA
Coordinator:
THALES
Call:
FUI 3
Start date:
October 2007
Duration:
42 months
Global budget (M2):
9.4
◗ Publications:
« Tools for nuclear and radiological risk characterization » by CEA LIST, HCFDC 2009
Price for Face On The Fly® by Morpho
◗ Patents:
4 patents by Gemalto around the contact less badge system, for example: « Contact
less emulation per Bluetooth », 1 patent in progress by CEA LIST « temporal fuzzy expert system ».
Funding (M2):
3.2
DESCARTES, LOCINDOOR,
RAF, SIC
Video suitcase Evitech, biometric gate Morpho, HoverEye - EX UAV Bertin Technologies,
ULIS RCE threat detector Sodern are now available on the market.
◗ Job creation:
Making work 13 partners, MOBISIC project has strongly supported R&T during more than
3 years. One job has been created at Thales.
Common trade shows between Evitech and Alcatel-Lucent in progress.
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NIMBLENET
NimbleNET
ON GOING
PROJECT
The NimbleNET project deals with high data rate wireless networks offering scalable
and flexible capabilities and able to support a great number of nodes. The objectives are
fixed deployments requiring a high tolerance to failure, destruction and jamming for
applications such as video surveillance of critical sites or overseas operations. Another
operational mode is related to fast and temporary deployment for public safety or in
case of crisis management after terrorism attacks.
CONTACT
Frédéric GOURMELEN
ÉOLANE
+33 (0)1 69 82 20 00
[email protected]
◗ A typical network includes 50 to 200 nodes monitored by 1 to 5 supervision centers
and located on a around 10 km side square. It is deployed in urban or suburban environment and its topology is based on a mesh centralized tree.
◗ The project results are highlighted by a demonstration involving adapted on the shelf
devices for small configurations and by simulation
◗ The main technical innovation of the NimbleNET project is the combination, for the
first time, of a set of techniques to improve the security and the flexibility of a wireless network made of a great number of nodes against attacks such as jamming and
repeater destruction.
PARTNERS
Large companies:
THALES
EOLANE
TELECOM PARIS TECH
◗ Well known solutions such as wide-band hopping techniques are mixed to innovative
solutions such as Fast Electronically Steerable Antennas (FESA) coupled to the TDMA
protocol of the WiMAX standard to ensure communications security and reliability.
Scalability and flexibility of the network are managed by the application controlling the
rate of the data flows and assured by the algorithms related to the dynamic topology
control, allowing the network configuration update.
◗ By this way, the wireless network has extended radio coverage and is tougher to
failure, destruction, jamming
and interference. The radio
characteristics are exploited by
using in real time the available
spectrum parts and mixing the
frequency and spatial reuses.
The loss of a relay or a supervision center is alleviated with
an update of the network configuration defined dynamically
by the topology algorithms.
PROJECT DATA
Coordinator:
EOLANE
Call:
FUI 8
Start date:
January 2010
Duration:
27 months
Global budget (M2):
1.3
Funding (M2):
0.5
RAF
◗ The market approach is done, as well as the technical analysis.
◗ Detailed design phase is running, on each topic required to fit the project requirements: low layers of the protocol stack, topological control, network monitoring and
video application surveillance.
◗ Preliminary definition of the experimentation requirements.
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NOTSEG
Standardization and Societal Security
ON GOING
PROJECT
◗ CONTENT:
• NOTSEG - Standardization and Societal Security.
• Standardization, a major sector of the economy, henceforth formulates rules
concerning the security for citizens.
• Field of concerned standards: security management, information, coordination,
communication and command systems, doctrine of use of technologies (NRBC,
video surveillance).
◗ OBJECTIVES:
• Providing a state of art in the field of societal security management standardization
for industrials and public authorities.
• Providing a comparative analysis of major standards.
• Analysing bodies and conformity assessment activities including certification and
accreditation.
• Proposing a classification of standards and concepts related to security management.
CONTACT
Brigitte JUANALS
MODYCO (MODELES
DYNAMIQUES CORPUS),
UNIVERSITE PARIS OUEST
NANTERRE LA DEFENSE CNRS
+33 (0)6 77 24 07 95
[email protected]
PARTNERS
Large companies:
AFNOR
◗ The study will be based on cross themes and cross disciplines (social humanities,
SMEs:
SECTOR GROUP
social sciences, engineering, standardization) and will take into account the issue of
conformity assessment.
◗ Our approach is focused on the state of the art of standardization in the field of societal security management in order to provide a strategic visibility to professionals and
public authorities.
CQP2I, UNIVERSITÉ
TECHNOLOGIQUE DE
COMPIÈGNE, UNIVERSITÉ
PARIS OUEST NANTERRE
LA DÉFENSE, CNRS
◗ Taking part in the issuing of standards at an international level (ISO TC223 and CEN
TC 391).
◗ Supporting public authorities concerning specific topics such as business continuity
and crisis management.
◗ Publishing in professional journals and editing of a book.
◗ Organizing an international conference (2012), taking part in scientific and professional conferences.
PROJECT DATA
Coordinator:
UNIVERSITÉ PARIS OUEST
NANTERRE
LA DÉFENSE
Call:
ANR
Start date:
February 2010
Duration:
30 months
Global budget (M2):
0.7
Funding (M2):
0.3
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ODYSSEE, Haut Débit Sécurisé
COMPLETED
PROJECT
Use of both encrypted high rate transmission and secure storage in small devices (USB
key, MP3 key, smart cards…) increases rapidly. Thus it becomes necessary to dispose of
high rate, low consuming cryptographic modules that must also be resistant against
physical attacks. Stream ciphers are designed especially for high rate applications. They
were recently renewed by the eStream project, but without real interest in their resistance
against physical attacks.
CONTACT
Blandine DEBRAIZE
GEMALTO
+33 (0)1 55 01 59 40
[email protected]
The goal of the Odyssee project is then to:
◗
◗
◗
◗
◗
Select stream ciphers adapted to embedded environments.
Analyse their security against physical attacks.
Develop countermeasures and test their validity.
PARTNERS
Measure and compare their performances.
Large companies:
GEMALTO
Test their pertinence in real life applications.
The publications of the ODYSSEE's partners have shown that most stream ciphers are
vulnerable to DPA (Differential Power Analysis) and DFA (Differential Fault Analysis).
DFA attacks were precisely described on Grain-128, Snow 3G and Rabbit.
Countermeasures to protect
stream ciphers against DPA
were developped and experimentally tested.
Software and Hardware implementations of secured and unsecured stream ciphers were
performed in embedded systems, allowing to take performance measures and make
comparisons.
PROJECT DATA
Coordinator:
GEMALTO
Call:
ANR
Start date:
December 2006
Duration:
36 months
Global budget (M2):
1.5
Funding (M2):
0.6
◗ Publications:
All publications presented in conferences with program committee:
• Susceptibility of eSTREAM Candidates towards Side Channel Analysis. - SASC 2008.
• Fault Analysis of Grain-128. Guilhem - HOST 2009.
• Fault Analysis of the Stream Cipher Snow3G - FDTC 2009.
• Alexandre Berzati, Cécile Canovas-Dumas, Louis Goubin: Differential Fault Analysis of Rabbit: Toward a Secret Key Leakage, In Proceedings of Indocrypt 2009.
• Smart cards software implementations of unsecured and secured stream ciphers
were performed. This allowed to compare their performances with the performances of the AES and to validate the countermeasures.
• FPGA hardware implementations of unsecured and secured stream ciphers were performed. This allowed to compare their performances with and without countermeasures and to choose the best stream cipher for a fast transmission of ciphered data.
• The countermeasure validation were made by performing attacks on FPGA and
smart cards implementations. This showed that unsecure stream ciphers are vulnerable and the secure ones are suffiently protected against physical attacks.
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CEA-LETI, UVSQ
SECURED ALGORITHM
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OPTIMUM
Projet Coopératif pour le développement
des technologies III/V en Ile-de-France
The OPTIMUM project aimed to foster the III / V value chain in Ile-de-France and to
allow all the players to become key actors in the worldwide competition for those
applications. By developping strong basic technologies for compound semiconductors
materials and related electronic components, the consortium will provide any high
performance or innovative hardware or devices required for the various development
themes of the Pole.
COMPLETED
PROJECT
CONTACT
Jean-Luc LEDYS
PICOGIGA INTERNATIONAL
+33 (0)1 69 31 61 12
[email protected]
Main applications domains are:
◗
◗
◗
◗
high data rate telecommunication networks (Optical fibers or WLAN),
transportation and automotives (safety radars lighting, inboard networks),
space (SatComs, observation, GPS infrastructure),
and Security (detection, observation).
PARTNERS
Large companies:
ALCATEL-LUCENT III-V LABS,
THALES, UMS
PROJECT RESULTS
◗ Products:
Demonstrators : 40 Gbits/s transponder, chip set for car radar, chip set for 40 GHz
WLAN.
◗ Patents:
SMEs:
OMMIC
CNRS, IEF, TELECOMS PARIS,
UPX
20 filed patents.
◗ Technologies:
• Materials: development and industrialization of epitaxial structures for PHEMT,
MHEMT and HBT devices on GaAS, InP or GaN sustrates.
• Devices: Design and process technologies (including front end, packaging and test)
for PHEMT, MHEMT and HBT (state of the art performances in Low Noise, Power,
Linearity, bandwidth, and A/D signal processing).
◗ Publications:
35 publications or participation to international conferences.
◗ Job creation:
32 R&D jobs.
PROJECT DATA
Coordinator:
Call:
FUI1
Start date:
September 2006
Duration:
24 months
Global budget (M2):
11.8
Funding (M2):
3.7
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OSOSOSOS
OSOSOSOS is a Secure
Open Source Operating System
which Ought to be Simple
The ANR launched in 2008 a new type of call for projects: SEC&SI, where multiple teams
are competing. The goal is the conception of an easy-to-use and secured operating
system, which would allow standard (and risky) web browsing, but also to safely pay
taxes, do e-banking or issue signed e-mails.
This challenge will alternate conception phases and attack phases.
The OSOSOSOS team selected containment with vserver. Special attention will be dedicated to the management of updates, the communication between vserser, and the
management of user's personal data.
CONTACT
PARTNERS
OSOSOSOS has demonstrated that vserver can be used as a containment technique
with a low ressource consumption. Integration of a package management with the use
of multiple vservers and encrypted disk is one of the key achievements of the project.
Louis GRANBOULAN
EADS FRANCE
+33 (0)1 46 97 31 76
[email protected]
Large companies:
EADS DSS, EADS FRANCE
SUPELEC RENNES
PROJECT DATA
Coordinator:
EADS FRANCE
Call:
ANR
Start date:
October 2008
Duration:
24 months
Global budget (M2):
0.3
Funding (M2):
0.1
OSOSOSOS has gone through an intensive testing phase, in the context of the Défi
SEC&SI.
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PROJECT
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PAMPA
Password Authentication
and Methods for Privacy and Anonymity
One of the main goals of this project is to develop new protocols with password
authentication, which are not only more efficient but that can also provide a higher level
of security. Towards this goal, we also intend to investigate the relationship between
the different security models and the level of security that they provide. Next, we also
consider new security aspects for group protocols with password authentication,
including robustness, dynamicity, insider corruptions, and adaptive security.
Another goal of our project is to design more practical one-time password systems by
combining password-based and one-time password techniques. This could avoid for
example having to trust the client machine, which seems hard to guarantee in practice
due the existence of numerous viruses, worms, and Trojan horses.
ON GOING
PROJECT
CONTACT
Louis GRANBOULAN
EADS FRANCE
+33 (0)1 46 97 31 76
[email protected]
PARTNERS
Large companies:
EADS FRANCE
The project is structured by two main research topics: password-based authentication
(WP1) and anonymity & privacy (WP2). On the first topic, the main innovations have been
around extending password-based authentication to groups larger than two persons,
with both parctical requirements (minimising the communications, dynamic evolution
of participants, ...) and scientific robustness (security model and security proof). On the
second topic, the focus has been put on delegation for authentication and signature, and
anonymity for identity-based encryption.
Starting halfway of the project, these theoretical results will be implemented, and hopefully be validated by being integrated in some common (open source) software.
SMEs:
CRYPTOLOG
ENS
PROJECT DATA
Coordinator:
EADS
Call:
ANR
Start date:
January 2008
Duration:
48 months
Global budget (M2):
0.9
Funding (M2):
0.4
Many promising ideas for WP1.2, WP1.3 and WP2.2. Many publications have been already
made. The first WP1 (password-based authentication) and WP2 (anonymity & Privacy)
deliverables have been published. The prototyping of some new protocols is starting.
See https://crypto.di.ens.fr/pampa
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Personnalization for identity and services
COMPLETED
PROJECT
In our world where so much data is exchanged,where institutions matter a lot about
security, where citizens care about their private sphere, means of secure identification
are needed. On the other hand, local authorities and service providers require a lot of
flexibility to deploy proximity services or to enable security procedures specific to a
compagny. The challenge lies in the design of procedures for administratives operations
or home aid in an "open" environment: it means an environment where the different
process co-exist without interfering with each other and without the emergence of
security gaps.
CONTACT
Jean-Loup DEPINAY
OBERTHUR TECHNOLOGIES
+33 (0)1 55 46 71 69
[email protected]
◗ The project targets to demonstrate the feasibility of such a platform.
The project has covered the following topics:
◗ Risk Analysis of Personalization in an unsecured environment: by defintion an archtecture including all the concerned actors applying to two main use cases (Daily Life Card and
Corporate Card).
◗ Social acceptance and Legal framework an inquiry has been made among the city hall
in France that has already some experience with Daily Life Card and a workshop with
actors of the Region of Caen and the public transport to discuss about pratical and
legal way to enable such systems.
PARTNERS
Large companies:
OBERTHUR TECHNOLOGIES,
TRUSTED LABS,
TRUSTED LOGIC
SMEs:
CEV GROUP, EURODEMAT,
NBSTECH
ENSI CAEN, INRIA
◗ Design and implementation of two personalisation systems dedicated to the two use
cases under consideration.
PROJECT DATA
Coordinator:
• Many use cases can illustrate Persepolis’s cases. In particular the initiators or the project have imagined a Multi Service Student card (“Carte d’Etudiant Multiservices” ou CEM).
• An experimentation that illustrates that use case will be set up at EnsiCaen facilities from the 19th of April to 28th of May 2010.
• 24 students, in 2nd year of engineer school specialized in electronic financial transactions via apprenticeship will be invited to participate to the experimentation set
up by Persopolis Consortium from the 19th of April to the 28th of may 2010. They
will be asked to test usage of a new concept of multiservice student card elaborated during Persopolis Project.
• This experimentation will occur in a “electronic banking box” at EnsiCaen. This "box"
is a glass room of around 20 m² in which we will install workstations and peripherals mandated by the fulfilment of the experimentation.
• During the kick-off day planned on the 19th of April 2010 students, assigned in
groups of 5 persons, will be invited to come and test different services proposed by
the partners of the Persopolis project according to pre-defined scenarios (A different scenario will be proposed to each group). At the end of the experimentation,
students will receive a questionnaire to get their opinions on proposed services,
ergonomics and most important on the administration of them.
• Following that day and until the 28th of May new test sessions will be organized while
the partners will enrich the system. Access to the box, due to industrial confidentiality, will be securely controlled (badge and keys). So, those sessions will be supervised
by an authorized person (This person will be a member of the teaching staff).
• The set of deployed services will be simulated: access to library, school restaurant,
exam access control, Public transport…) Students that will have access to the Multi
services Persopolis Card will not be able to use it in the Real world.
192
Co-label:
TES
Call:
FUI5
Start date:
June 2008
Duration:
24 months
Global budget (M2):
3.8
Funding (M2):
1.6
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Plates-Formes de Confiance
COMPLETED
PROJECT
PFC addresses security issues for governmental applications and critical infrastructures such as transports, energy…
It also aims at reducing Total Cost of Ownership of IT systems.
The third issue involved ease-of-use and ergonomics. Indeed, PFC will enable:
◗ an authenticated trust framework, allowing to get rid of the multiple authentications
by providing trust definition schemes between all systems;
CONTACT
Elie ZNATY
BERTIN TECHNOLOGIES
+33 (0)1 38 30 62 81
[email protected]
◗ consolidation of all informations on a unique terminal allowing secure access to multiple independent networks, some secure and some “unsecure” such as Internet.
PROGRESS BEYOND THE STATE OF
THE ART
PFC platforms overcome the need for manual transfer of
information between different systems or to perform multiple authentication by providing a highly secure and versatile architecture suitable to provide secluded access to
different IT environments. PFC added value has been
demonstrated on workstations and embedded systems
◗ Publications:
• Géraud Canet, Pascal Cuoq and Benjamin Monate. A Value Analysis for C Programs. In
3rd IEEE International Workshop on Source Code Analysis and Manipulation (SCAM'09),
20-21 September 2009, Edmonton, Canada, 2009.
• Jean-François Couchot, Alain Giorgetti and Nicolas Stouls. Graph-based Reduction of
Program Verification Conditions. In Hassen Saïdi and N. Shankar, editors, AFM'09, colocated with CAV'09, pages 40-47. ACM Press, 2009.
• Alain Giorgetti, Julien Groslambert, Jacques Julliand and Olga Kouchnarenko. Verification of class liveness properties with Java modelling language. IET Software, 2(6):500514, December 2008.
• Benjamin Monate and Julien Signoles. Slicing for security of code. In Peter Lipp, AhmadReza Sadeghi and Klaus-Michael Koch, editors, TRUST, volume 4968 of Lecture Notes in
Computer Science, pages 133-142, Springer, 2008.
• Nicolas Rousset. Automatisation de la Spécification et de la Vérification d'applications
Java Card. Thèse de doctorat, Université Paris-Sud, June 2008.
• Julien Blond. Modélisation et implantation de politiques de sécurité dans des systèmes d'exploitation. Thèse d'Université. Université Pierre et Marie Curie Paris VI. Novembre 2010.
Bertin Technologies, with PFC project, has demonstrated the need for a secure operating
system allowing strong and trustable separation between networks of different sensitivities
Gemalto is marketing their parts of PFC project's results in its secure Token global solution Achatpublic-Forsup, as one one the SME in PFC, has been able to demonstrate the professional services offered by their security products Bull has integrated parts of PFC
project's results in its global GLOBULL offer.
◗ Job creation:
The number of job creation thanks to PFC is estimated around 10. To that figure, it is worth
to quote that PFC project has been the opportunity for more than 4 PhD thesis at different
locations.
PARTNERS
Large companies:
EADS, GEMALTO, SAGEM
SECURITE, THALES,
TRUSTED LABS
BERTIN TECHNOLOGIES
SMEs:
APPLITEAM, DICTAO, FORSUP
CONSEIL
CEA, ENS CACHAN, INRIA,
LIP6, TELECOM PARITECH,
TELECOM & MANAGEMENT
SUDPARIS
PROJECT DATA
Coordinator:
BERTIN TECHNOLOGIES
Call:
FUI2
Start date:
March 2007
Duration:
36 months
Global budget (M2):
17
Funding (M2):
5.3
TSC
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Personal Information Management
through Internet
The future Internet will bring a growing number of networked applications (services),
devices and individual data (including private ones) to end-users (citizens, consumers,
employees). The important challenges are the organization of their access, and the
guarantee of trust and privacy. The objectives of the PIMI project are the definition of a
model-based design environment and a deployment platform for Personal Information
Management System (PIMS). The future PIMS must provide the end-user personal data
access with services that are relevant to his needs. In order to take mobility into account,
the PIMS will be accessed both by mobile devices (smartphone) and Internet-connected
Personal Computers.
◗
◗
◗
◗
Electronic reputation and trust in services.
Secured private data transfer between PIMS and between services (Identity Federation).
Ergonomic Human Computer Interface including mobile ones.
Service composition and re-composition based on end-users requirements (life events),
on e-service trust and runtime feedback.
ON GOING
PROJECT
CONTACT
Olivier NICOLAS
GENIGRAPH E-CITIZ
+33 (0)5 34 60 92 83
[email protected]
PARTNERS
SMEs:
GENIGRAPH, MONTIMAGE
INRIA, IRIT, LRI, TELECOM
SUDPARIS
◗ Quality of Service / Quality of Experience self adaptation.
◗ Advanced algorithms to monitor the PIMS, the private data and service accesses.
PROJECT DATA
Coordinator:
GENIGRAPH
Call:
ANR
Start date:
December 2010
Duration:
36 months
Global budget (M2):
2.6
Funding (M2):
1.1
DESCARTES, MOBISIC
Most areas of the PIMI project are still in the study phase. A state of the art regarding
personal information management systems and tools is being elaborated and the
project case study is under analysis to derive relevant requirements. Environmentaware e-services are under inverstigation for their dynamic updates based on their
QoS/QoE performance indicators and security properties. Some directions are emerging
to integrate partners methods and tools within the PIMI platform.
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QUASPER
Qualification of perception systems
ON GOING
PROJECT
For critical infrastructures, transports and automobiles, security requirements are intensifying in particular due to regulatory changes. Whether perception systems are
fixed or on board, used technologies (sensors associated to algorithms) are often similar. Thus industrial and academic actors from the Security, Transportation and Automotive sectors have teamed up to face the main technological lock-in: the performance
assessment of perception systems.
QUASPER R&D has three operational objectives in the service of companies and laboratories:
CONTACT
Emmanuel MICONNET
THALES
+33 (0)1 69 41 59 99
emmanuel.miconnet
@thalesgroup.com
◗ contributing to the development of new technologies of sensors and perception systems;
◗ supporting the setting-up of European standards on functional performance qualification for perception systems;
◗ providing scientific and technological elements to help structure the development of
a future operational platform which will provide qualification and certification services for sensors and integrated systems.
QUASPER R&D will be a first answer to an important problem faced by manufacturers, integrators and laboratories developing and using perception systems. Nowadays to assess the
performance of these systems they rely on costly and time-consuming self-created tests.
Thus the work done within
QUASPER R&D is fundamental: it
will pave the way towards the establishment of operational methods to qualify and certify perception
systems.
PARTNERS
Large companies:
AFNOR, AKKA,
DURAN DUBOI,
MORPHO, SOPEMEA,
ST MICROELECTRONIC,
THALES, VALEO
SOPEMEA
SMEs:
CITILOG, CIVITEC, DURAN
DUBOI, ERTE, HGH, SOPEMEA,
CEA LIST, INRETS, INRIA,
INSTITUT D’OPTIQUE
GRADUATE SCHOOL
QUASPER R& D will:
◗ define qualification methodologies for each domain;
PROJECT DATA
◗ create an initial corpus of data
Coordinator:
THALES
references;
◗ specify the targeted architecture
for the development in a second phase of an innovation platform;
◗ initiate the setting-up of European standards on functional performance qualification for
perception systems.
Therefore the results of research undertaken within QUASPER R&D will on one hand guide
the ongoing R&D (in regards to the development of perception systems) of the actors within
Security, Automotive and Transportation domains; on the other hand it will be a first step towards a European standard.
Finally, QUASPER R&D provides the founding elements of an operational platform
named “QUASPER” that will offer qualification and certification services for companies
and laboratories.
The project was started in June 2010 and is under development.
During the 24 months of QUASPER R&D, the platform specifications will be defined:
qualification methods, reference data, architecture and technical components.
The opening of the platform is planned for the second half of 2014.
Co-label:
MOV'EO
Call:
FUI9
Start time:
June 2010
Duration:
24 months
Global budget (M2):
2.9
Funding (M2):
1.2
LOVE, MOBISIC, ODIAAC,
SAFEAROUND, SIC, VICOMO,
X-VISION
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and people
RECONSURVE
A Reconfigurable Surveillance
System with Smart Sensors
and Communication
The RECONSURVE project has been motivated by the need of better tackling the stakes
and the increasing number and complexity of the maritime surveillance issues, such as
illegal immigration management and illegal traficking using small vessels. Data issued
from heterogeneous sensors are used as input (unmanned aerial vehicles with imaging
capability, sonar networks, AIS transmitters…), and the project focuses on detection,
clustering/classifying, behavioural analysis and tactical situation awareness for decision
making enhancement. A coherent processing network will be designed with interoperability
interfaces between these heterogeneous systems, which will enable decision support
capabilities and the execution of adapted responses for the globally evaluated situation.
◗ The RECONSURVE system is composed of two sets of interacting architectural components.
CONTACT
Simon FOSSIER
THALES
+33 (0)1 69 41 56 89
[email protected]
PARTNERS
Large companies:
ASELSAN, CASSIDIAN SYSTEMS,
THALES
SMEs:
EVITECH, FLYING ROBOTS,
GMTC, SRDC
◗ First, the proposed maritime surveillance system will contain electro-optic and infrared sensors,
radar and sonar networks, deployed on ground, on boats, UAVs,
land mobile platforms, satellites
and underwater platforms. The
provided data, as well as information from the existing AIS network,
will be used in routing, safe navigation capabilities and deployment
strategies for UAVs.
ÉCOLE NAVALE/IRENAV,
GREYC, TCGC,
TÉLÉCOM BRETAGNE/ATOL
PROJECT DATA
◗ A Command and Control system
will then be designed. A data processing block will first ensure detection of targets, classification,
tracking and multilevel data fusion,
and this information will be used in
a preliminary threat analysis. This
block will then feed a situational
awareness block, which will be
tasked with understanding the intentions of the target through its
status/actions and its environment,
and raising alerts accordingly. Moreover, an interoperability framework will be designed through a common language (ontology), to allow interfacing with other maritime surveillance systems.
The objective for year 1 is to provide a first operational and functional view of the system,
specify and prioritize requirements, and define regulatory and socio-economic
requirements for successful deployment of the platforms and the system.
196
ON GOING
PROJECT
Coordinator:
ASELSAN
Call:
EUREKA 4
Start date:
January 2011
Duration:
48 months
Global budget (M2):
11.7
Funding (M2):
3.6
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ROLE-ID
Role-centric identity
ON GOING
PROJECT
Role-ID is developing an organization-oriented identity extension based on a rolecentric vision.
Role-ID will provide a set of innovative and modular security components and processes
that will enhance the role management within the infrastructure identity level and
provide innovative role functionalities.
CONTACT
Angélique REAL
CASSIDIAN
+33 (0)1 61 38 67 50
[email protected]
The idea is to extend the vision of role and identity in the following directions:
◗ role-ID will introduce an innovative concept of function in identity that will improve notions of context sharing and
delegation;
PARTNERS
Large companies:
CASSIDIAN, EVIDIAN, INSTA
DEFSEC LTD
◗ role-ID will introduce a new
concept of virtual user that will
allow a rich dynamic role attribution;
SMEs:
ENTR'OUVERT, ILEX, SWID,
UBISECURE
◗ role-ID will develop news means
for organizations to modelling a
great complexity of identities
and roles;
◗ role-ID will adapt and improve
the existing methodologies to administrate complex organisations identity database;
TELECOM BRETAGNE,
UNIVERSITY OF OULU,
UNIVERSITY OF EASTERN
FINLAND, VTT
◗ role-ID will provide enhanced tools for identity provisioning that are relevant to the real
life constraints.
The purpose of role-ID is to base its work on identity products, standards and concepts
that have been already developed by the different partners of the consortium. The objective is to extend these products, standards and concepts. We will also capitalize on
the existing theoretical concepts and methodologies that have been developed all over
the world. We will extend them and implement them in real life existing products. Furthermore, we will introduce some innovative concepts in the field of identity management. We will develop several new organisation-oriented identity modules and prove
these concepts through demonstrator
The focus has been put on the elaboration of relevant use cases in the areas of public
and healthcare, ensuring a strong and stable base for building the relevant use cases.
The project also listed all requirements, technical and non technical, in all possible
domains and defined the modular project architecture.
The implementation of the notion of function and virtual role user has been started to
illustrate these concepts in a demonstrator and address a goal of role-ID project.
PROJECT DATA
Coordinator:
CASSIDIAN
Co-label:
ITEA2
Call:
EUREKA 3
Start date:
September 2009
Duration:
36 months
Global budget (M2):
9.9
Funding (M2):
3.9
FC²
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and people
SafeAround
COMPLETED
PROJECT
SafeAround project consists in the design and the realization of a future perimetric
protection demonstration system.
The protected area can be a peri urban zone, a coastline, an open field countryside or
a desert. SafeAround must allow highly reliable detections and an intelligent synthetic
management of threats information. The designed system can detect and classify the
intrusion of people, groups, vehicles, and flying objects in any directions of the
hemispheric space. Different kinds of sensors such as a thermal infrared + visible light
hemispheric imager, and a set of new generation geophonic sensors are linked to a
common data fusion control console.
The main goal of this project is to prove and illustrate the efficiency of the association
of the optronic and the geophonic sensors in typical surveillance scenarios.
CONTACT
Vincent LEBOUCHER
HGH SYSTEMES INFRAROUGES
+33 (0)1 69 35 47 70
[email protected]
PARTNERS
This Project allowed to built the first demonstrator of a system fusioning the following
kinds of intrusion sensors:
◗ Optronic IR+visible Hemispheric camera.
◗ Set of geophonic sensors.
The fusion system allows computing detections coming from either single or multiple sensors.
The integrated system is based on an Ethernet architecture using a modern standardized supervising protocole: SNMP.
The optronic system is the first using uncooled IR detectors to perform hemispheric
cameras. Furthermore, the visible and IR channels are integrated into a single system.
The geophonic sensors allow an improved localization of the threats using the triangulation of the geophonic signals.
SMEs:
EVITECH, HGH
IEF
PROJECT DATA
Coordinator:
Call:
FUI2
Start date:
December 2006
◗ Products:
The project led to the realization of a new kind of optronic sensor that may have a good life
time due to its structural robustness. A new generation of geophonic sensor system was
also optimized and is now a new product as its own. Its improved signal filtering process
allows a better target classification and detection. The data processing monitoring and
display system was specifically designed for the purpose of SafeAround. Its user friendly
functions and its ability to present synthetic information from various sensors.
◗ Patents:
The new scanning concept of IR panoramic imager using uncooled detectors is the
object of a patent application file.
◗ Publications:
The optronic sensor was presented to the scientific community during the OPTRO
conference in Feb. 2010. A new article related to it was published: "Panoramic Images
With Uncoled Detectors".
The whole system was successfully tested in the ETBS in Bourges in June 2009. It was
installed in realistic conditions, outside, in a place where it was possible to test the
functions of the system, playing realistic scenarios of detection and tracking.
◗ Job creation:
SafeAround made possible the hiring of about 10 engineers.
The turnover related to the commercial success of equipments designed thanks to
the project SafeAround will reach 2.5M€ per year after 2012.
198
MARTEC-ERYMA
Duration:
32 months
Global budget (M2):
2.6
Funding (M2):
1.2
SIC
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SAIMSI
Suivi Adaptatif Inter-lingue
et multi-source des informations
◗ Watch of the information on persons identified by the security services as having illegal activities. This watch is done over the internet using different kind of sources
(social networks, specialized sites, RSS, …), different media (text and speech) and different languages (French, English, Arabic, Russian, Chinese).
◗ Processing of the variation of the spelling of proper names when using different alphabets like Latin, Cyrillic, Arabic or Chinese ideograms. Processing of homonyms for
person names and place names.
ON GOING
PROJECT
CONTACT
Christian FLUHR
GEOLSEMANTICS
GROUPE CADÈGE
+33 (0)6 81 01 01 08
[email protected]
◗ Interlingual information structuring based on both linguistic processing and professional knowledge.
◗ Identification of text or speech authors using multiple linguistic criteria (vocabulary,
syntax, argumentation) and vocal biometrics.
PARTNERS
◗ Merging of information from various languages and various sources.
◗ Combining linguistic processing and professional knowledge.
◗ Combining linguistic processing
Large companies:
CASSIDIAN
SMEs:
GEOLSEMANTICS, MONDECA
IREENAT, LIP6
with metadata from the information gathering process.
◗ Determination of a text or
speech author based on linguistic criteria and voice biometrics.
PROJECT DATA
◗ Detection of illegal activities
Coordinator:
GEOLSEMANTICS
based on automatic reasoning
on the interlingual structured
database built using the multilingual gathered information.
Call:
ANR
◗ Geolocalization of illegal activi-
Start date:
January 2010
ties.
All the fonctionalities are webservices of the integration plateform
WEBLAB from Cassidian which is
a result of the ANR plateform
Webcontent.
Duration:
30 months
Global budget (M2):
3.2
Funding (M2):
1.3
2 use cases have been agreed with the potential users : activities linked with islamist
terrorism and phishing.
A tool giving all possible spelling in Latin character of Arabic names has been
developed and validated by the users.
An interlingual ontology has been built and tested on the both use cases.
The first prototype SAIMSI is forcast for June 2011.
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SAMOSA
Microwave Scanner for Airport Security
ON GOING
PROJECT
SAMOSA project falls within the context of airport security. Its objective is to develop a
system, based on microwave imaging technology, allowing the detection of embedded
explosive on a flight passenger. The explosive could be carried closed to the body or
implanted in the body of the passenger. This new technology has many advantages and
allows detecting explosives implanted in human body without revealing the intimate
anatomy of passengers. The project is in the current tendency of developing advanced
vision technology. However, addressing social and ethic aspects of this kind of systems,
the project will bring a new lighting about civil security tools and their integration in
civil society.
The main innovation is the use of the microwave frequency band. This would allow detecting explosive material carried closed to the body or implanted in the body of the passenger. The innovative technological concept is the development of a multiprobe scanner,
with a multistatic imaging process. That would allow scanning the passenger in a very
short time and would provide a global imaging with hot spots in case of presence of material explosive. The intimate anatomy of passenger won't be revealing. A first activity will
be the characterization of products that have to be detected and the qualification of the
body environment. These results will guide to define the working frequencies bands. An
other innovative aspect of the project is the study of the social and ethic aspects that
will bring a new lighting about the integration of new security tools.
CONTACT
Luc DUCHESNE
SATIMO INDUSTRIES
+33 (0)1 69 29 81 56
[email protected]
PARTNERS
Large companies:
CEA GRAMAT, ONERA,
STAC
SMEs:
SATIMO INDUSTRIES
GRSG, LAMIH, UNIVERSITE
DE VALENCIENNES ET DU
HAINAUT-CAMBRESIS
PROJECT DATA
Coordinator:
SATIMO INDUSTRIES
Co-label:
AEROSPACE VALLEY
Call:
ANR
Start date:
March 2011
Duration:
36 months
Global budget (M2):
2.0
Funding (M2):
1.0
The project began in March 2011.
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Security and Analysis of Primitives
of Hashing Innovatory and Recent 2
The main objective of the Saphir2 project is to follow and take part into the NIST
competition about hash functions. There is no ambiguity that this competition is a
unique opportunity to study hash functions and propose its own design, as the AES
competition has been for block ciphers.
The goals of Saphir2 project is:
◗ to propose and support hash function candidates,
◗ to cryptanalyse some of the candidates,
◗ to develop software and hardware implementations of some of the best candidates.
ON GOING
PROJECT
CONTACT
Jean-François MISARSKY
+33 (0)2 31 75 93 18
jeanfrancois.misarsky
@orange-ftgroup.com
Thus, the SAPHIR 2 project may have a large impact, on the whole world cryptographic
community.
PARTNERS
Saphir2 will deliver information and analysis on NIST hash candidates:
◗
◗
◗
◗
◗
◗
inventory the use of hash-function in standards and evaluate the impact of using SHA-3,
realize mathematical and physical cryptanalysis of NIST hash candidates,
implement and optimize attacks on NIST hash candidates,
realize software and hardware implementation and analysis of NIST hash candidates,
study design criteria and impacts of using SHA-3 on applications,
Large companies:
CASSIDIAN, FRANCE TELECOM
ORANGE, GEMALTO, MORPHO
SMEs:
CRYPTOLOG INTERNATIONAL
Other:
ANSSI
INRIA, LIENS, UVSQ
follow-up and support of Saphir2 candidates.
Saphir2 has 10 Tasks divided into 5 Work Packages. 9 deliverables will be published
during the two first years. But, the main results will be appeared at the end of the 3rd
year of project and at the end:
◗ 9 deliverables during the two first years,
◗ 8 deliverables at the end of T0+36,
◗ 11 deliverables at the end of project.
PROJECT DATA
Coordinator:
Call:
ANR
Start date:
March 2009
Duration:
48 months
Global budget (M2):
6.6
Funding (M2):
2.5
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SCALP
Security of Cryptographic
ALgorithms with Probabilities
Our day-to-day lives increasingly depend upon information and our ability to manipulate
it securely. For this reason much effort is put on developing systems with guaranteed
security properties. The development of information security systems has to evolve from
an art to a science. To this end, engineers need tools that assist them in developing
security systems with provable security guarantees. The aim of the SCALP project is to
develop general computer-aided tools for verifying cryptographic systems with strong
correctness guarantees. These tools should have the following characteristics:
◗
◗
◗
◗
Support the provable and exact security frameworks.
ON GOING
PROJECT
CONTACT
Yassine LAKHNECH
UNIVERSITY OF GRENOBLE 1
+33 (0)4 56 52 03 81
Yassine.Lakhnech
@ujf-grenoble.fr
Be reasonably automated.
Be applicable to realistic systems.
Put emphasis on proof checkability and certification.
No matter how carefully crafted cryptographic systems are, experience has shown that
effective attacks can remain hidden for years. This may be caused by poor design or
often unclear and poorly defined security properties and assumptions.
Therefore, provable security, where new systems are published with a rigorous definition of their security goals and a mathematical proof that they meet their goals, is being
increasingly advocated. While the adoption of provable security significantly increases,
the complexity and diversity of designed systems tend to increase too. Hence, it is
largely agreed on that the point has been reached where it is no longer viable to construct or verify cryptographic proofs by hand (Bellare& Rogaway 2004, Shoup 2004,
Halevi 2005) and that there is a need for computer-aided verification methods for cryptographic systems. The goal of this project is to achieve a major step towards building
automated tools for the verification of cryptographic systems. In order, to reconcile generality, imposed by the high diversity of cryptographic systems, and automation, we
shall build our tools upon Coq.
PARTNERS
CNAM, CNRS,
ENS LYON, INRIA,
UNIVERSITY OF GRENOBLE
PROJECT DATA
Coordinator:
UNIVERSITY OF GRENOBLE 1
Co-label:
SCS
Call:
ANR
Start date:
January 2008
Duration:
48 months
An automated tool for the verification and certification of cryptographic systems. We
managed to prove encryption schemes such as IND-CCA OAEP, signature schemes
such as FDH and PSS and water marking algorithms.
Global budget (M2):
1.2
202
Funding (M2):
0.5
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SECURED
ALGORITHM
Secured Algorithm
for platform subject
to physical attacks
While implemented on embedded devices, cryptographic algorithms become vulnerable
to numerous physical attacks such as side channel attacks and fault attacks. In order
to protect embedded cryptographic implementations, developers have to design
appropriate countermeasures which often induce an important overhead in their
performances.
This overhead could be significantly reduced if cryptographic algorithms were designed
with specific criteria. Secured embedded systems could then have their own standards,
appropriate for their uses and their constraints.
The main issue of this project is to analyze the security of cryptographic primitives vs.
the efficiency of their secured implementation as well as to define a symmetric
cryptographic algorithm specific to embedded applications.
Results have been obtained through a better modelisation of physical leakages: estimation of probability density functions, use of mutual information analysis, estimation of the
efficiency of EMA… New significant contributions have also been obtained regarding countermeasures against side-channel attacks, particularly masking. Finally, the overall
structure of a new block cipher taking the expertise acquired into account has been fixed;
we are still working on a detailed specification of the block cipher components. Practical
implantations of the block cipher are also foreseen.
COMPLETED
PROJECT
CONTACT
Gilles PIRET
+33 (0)1 47 85 40 15
[email protected]
PARTNERS
Large companies:
OBERTHUR TECHNOLOGIES,
THALES
NAGRA
TELECOM PARISTECH,
UNIVERSITÉ PARIS 8,
UNIVERSITÉ VERSAILLES
SAINT QUENTIN
PROJECT DATA
◗ Patents: 3.
◗ Publications:
• Higher Order Masking and Shuffling for Software Implementations of Block Ciphers
-- CHES 2009.
• First-Order Side-Channel Attacks on the Permutation Tables Countermeasure -CHES 2009.
• Evaluation of Countermeasure Implementations Based on Boolean Masking to
Thwart Side-Channel Attacks. -- SCS 2009.
• Overview of Dual Rail with Precharge Logic Styles to Thwart Implementation -- Level
Attacks on Hardware Cryptoprocessors. -- SCS 2009.
• Mutual Information Analysis: a Comprehensive Study -- Journal of Cryptology.
• Theoretical and Practical Aspects of Mutual Information Based Side Channel Analysis -- IJACT 2010.
• Unrolling Cryptographic Circuits: A Simple Countermeasure Against Side-Channel
Attacks. -- CT-RSA 2010.
• About Probability Density Function Estimation for Side Channel Analysis -- F. Flament, H. Maghrebi, -- COSADE 2010.
• Side-Channel Analysis based on Rainbow Tables -- S. Guilley -- COSADE 2010.
• The Variance Power Attack -- P. Hoogvorst -- COSADE 2010.
• Towards a Third Order Side Channel Analysis Resistant Table Recomputation Method
-- COSADE 2010.
• Evaluation of Power-Constant Dual-Rail Logics Counter-Measures against DPA with
Design-Time Security Metrics -- IEEE Transactions on Computers.
• Efficiency of Far EMA for different distances between the antenna and the FPGA -DATE 2010.
• BCDL: A High Speed Balanced DPL for FPGA with Global Precharge and no Early
Evaluation -- DATE 2010.
Coordinator:
Call:
FUI5
Start date:
September 2008
Duration:
30 (=24+6) months
Global budget (M2):
2.3
Funding (M2):
0.9
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SEFPGA
Secured FPGA
COMPLETED
PROJECT
This project aims at improving the security of FPGAs embedding cryptographic
applications. The goal is to study countermeasures to fight side-channel attacks and
fault attacks against the programmed cryptoprocessor. The protections are studied at
different levels: intrinsic, i.e. depend on the FPGA architecture, or extrinsic, i.e; depend
on the application netlist . The FPGA topology is either Mesh-based, which corresponds
to a matrix shape which is used in off-the-shelf FPGAs, or tree-based which is a new
custom structure. The intrinsic security will be carried out by a test chip of the treebased FPGA. The extrinsic security will lead to a CAD tool which can add different
countermeasures at the design flow stages and allow the designer to find the best
compromise between complexity and robustness.
CONTACT
Jean-Luc DANGER
TELECOM PARISTECH
+33 (0)1 45 81 81 17
[email protected]
PARTNERS
LIP6, TELECOM PARISTECH
There are two major scientific achievements in this project.
◗ To provide a secure FPGA design flow which allows the designers to add.robustness
properties. At the front end stage this is obtained by taking advantage of differential
logic styles as WDDL, BCDL which permit the balance of the consumption. The back
end stage depends on the FPGA topology. Specific partitioning and routing algorithms
have been obtained for tree-based FPGAs.
Coordinator:
TELECOM PARISTECH
◗ A novel custom FPGA which has a tree topology.
This circuit is designed in 65nm technology and
is able to received the protected DES algorithm
bitstream by using a differential logic type.
Call:
ANR
Start date:
January 2008
Duration:
45 months
• E. Amouri, Z. Marrakchi, H. Mehrez. Security-Centric FPGA CAD Tools to Balance
Dual-Rail Routing in WDDL Designs. A apparaître dans Southern Programmable
Logic Conference, Argentina, 2011.
• E. Amouri, Z. Marrakchi, H. Mehrez. Controlled Placement and Routing Techniques
to Improve Timing Balance of WDDL Designs in Mesh-Based FPGA. 2010 IEEE Asia
Pacific Conference on Circuits and Systems (APCCAS'2010), Kuala Lumpur, Malaysia,
December 2010.
• E. Amouri, Z. Marrakchi, H. Mehrez. Impact of Dual Placement on WDDL Design security in Mesh-Based and Tree-Based FPGAs. 2010 IEEE Conference on Ph.D. Research in MicroElectronics and Electronics (PRIME'2010), berlin, Germany, July 2010.
• E. Amouri, H. Mrabet, Z. Marrakchi, H. Mehrez, Placement and routing techniques to
improve delay balance, IEEE International Conference on Electronics, Circuits, and
Systems, 2009, Hammamet, Tunisia.
• E. Amouri, Z. Marrakchi, H. Mrabet, H. Mehrez, Improving the Security of Dual Rail
Logic in FPGA Using Controlled Placement and Routing, International Conference on
Reconfigurable Computing and FPGAs, 2009, Cancun, Mexico.
◗ Patents:
J. L. Danger, S. Guilley et P. Hoogvorst, (2008), Procédé de protection de circuit de cryptographie programmable et circuit protégé par un tel procédé, Rapport de recherche,
n° FR 08 51904.
This project contributed to help the Telecom ParisTech and LIP6 spin-offs: secure-ic
http://ww.secure-ic.com and flexras http://www.flexras.com)
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PROJECT DATA
Global budget (M2):
0.8
Funding (M2):
0.4
SECURED ALGORITHMS
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Symmetric Encryption
with QUantum key REnewal
The main goal of the project SEQURE (Symmetric Encryption with QUantum key REnewal)
is to develop a complete system capable of performing fast data encryption over an installed
fibre optics link, with extremely high security standards. Quantum Key Distribution (QKD) is
combined with Symmetric Encryption in order to allow a fast renewal of highly secure session
keys.
The project gathers two industrial partners (Thales Research and Technologies: TRT and
Thales Communications: TCF) and two academic partners (Telecom ParisTech: TP and
Institut d’Optique Graduate School: IOGS), in order to develop and implement all aspects of
a high-speed encrypted link, including quantum security proofs and hardware, symmetric
encryption appliances, up to network protocols allowing field demonstration of the system.
We have developed a quantum cryptography prototype based on continuous variable producing secret keys at a rate over 1 kbit/sec at 25 km. It is interfaced with Thales Mistral
Gbit appliances allowing symmetric encryption at the Gbit/sec rate. The overall security
is increased using the secret keys for fast renewal of the symmetric algorithm session
keys. The whole set-up as been implemented on a fiber optics link installed between two
Thales subsidiaries in Palaiseau and Massy. It has been operated for six month producing secret keys at a 600 bit/sec rate and allowing for session key renewal every 10 sec.
COMPLETED
PROJECT
CONTACT
Thierry DEBUISSCHERT
THALES RESEARCH
& TECHNOLOGY
+33 (0)1 69 41 55 50
thierry.debuisschert
@thalesgroup.com
PARTNERS
Large companies:
THALES RESEARCH AND
TECHNOLOGIES (TRT) AND
(TCF).
TELECOM PARISTECH (TP)
AND INSTITUT D’OPTIQUE
GRADUATE SCHOOL (IOGS)
◗ Publications:
• R. Alléaume et al. “Using Quantum Key Distribution for cryptographic purposes: a
Survey”, submitted to the special issue of TCS for the 25th anniversary of BB84,
http://www.iota.u-psud.fr/~sequre/Publications/Publications.htm
• S. Fossier, E. Diamanti, T. Debuisschert, A. Villing, R. Tualle-Brouri, and P. Grangier.
“Field test of a continuous-variable quantum key distribution prototype”. New J. Phys.,
11(4) :045023, 2009.
• A. Leverrier, P. Grangier, "A simple proof that Gaussian attacks are optimal among
collective attacks against continuous-variable quantum key distribution with a Gaussian modulation", Phys. Rev. A 81, 062314 (2010).
• A. Leverrier, P. Grangier, "Continuous-variable quantum key distribution protocols with
a non-Gaussian modulation" arXiv:1101.3008.
◗ Patents:
Leverrier Anthony [FR]; Grangier Philippe [FR], Procédé de distribution quantique de
clés à variables continues, FR2933833 (A1), 2010-01-15.
High security communication link combining fast classical algorithm and quantum key
distribution.
◗ Job creation:
One scientist has been recruited
by the start-up SEQURENET in
order to develop quantum key distribution prototypes.
PROJECT DATA
Coordinator:
THALES RESEARCH
AND TECHNOLOGIES
Call:
ANR
Start date:
January 2008
Duration:
36 months
Global budget (M2):
1.4
Funding (M2):
0.6
The know-how on continuous
variable quantum key distribution
has been transferred to the startup SEQURENET. The objective is
to develop products exploiting
quantum key distribution.
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and people
Sécurité des Infrastructures Critiques
COMPLETED
PROJECT
The SIC project adresses the securisation of critical infrastructures with innovative solutions enabling to cope with the present and future threats. It includes:
◗ technological developments of a variety of smart sensors,
◗ a proof of concept of a new system integrating sensors and implementing a smart
alarm management based on complex event processing.
This project has been led in close cooperation with the operators of critical infrastructures in the Paris area and the supervisory authorities, all the while being in coherence
with the French and European initiatives.
The SIC system implements innovative sensors, among which:
◗ smart video cameras with algorithms allowing tracking of persons or detection of abnormal
behaviours and intrusions,
Guy PANAGET
THALES DSC
+33 (0)6 08 36 45 90
[email protected]
PARTNERS
Large companies:
ALCATEL-LUCENT, BERTIN
TECHNOLOGIES, BULL, EADS,
GEMALTO, MORPHO, RATP,
SODERN, THALES
SMEs:
TRUSTED LOGIC
◗ biometric sensors for access
CEA, INRIA, TELECOM &
MANAGEMENT SUD-PARIS,
UNIVERSITE PARIS-SUD
control,
◗ sensors able to detect and qualify NRBC agents.
The SIC middlewares have been
developed in order to integrate all
the alarms coming from the sensors and to present the operator
with a high level alarm for an
easier understanding of the current situation. This is made possible thanks to the
implementation of a CEP (Complex Event Processing) engine and the writing of CEP
rules based on the infrastructure risk analysis.
PROJECT DATA
Coordinator:
THALES
Call:
FUI1
Start date:
October 2006
◗ Publications: 3 publications.
◗ Patents:
FR2927713 (A1) Dispositif d'acquisition d'empreintes digitales à la volée.
• The CEP module will be integrated in the supervisors offer by 2014.
• Bertin chemical gas detection "SecondSight" equipment is now proposed for indoor
surveillance.
• Several new products should be put on the market (from 2012 to 2016) : Bull intrusion detection video equipment, Gemalto authentification solution, Morpho's Finger
On the Fly® biometric equipment, Telecom SudPAris signature reconnaissance pad,
Thales Communications video compression system, etc.
◗ Job creation:
13 jobs have been created and 43 preserved.
• The INRIA has tranfered the SIC know-how to Keeneo, firm in charge of the commercialization of videosurveillance technologies developped by the INRIA team.
• The SIC team had a leading action in order to have the ISO edit new metadata video
standards which will be a business booster from 2012 onward.
206
CONTACT
Duration:
45 months
Global budget (M2):
24.9
Funding (M2):
7.4
KIVAOU, MOBISIC, VIDEO ID
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Security innovation cluster
SIGNATURE
ON GOING
PROJECT
SIGNATURE: The European Security Innovation Network aims to expand the existing
security sector cluster infrastructure within North West Europe and become a leading
European security network. The supply side of the security market is fragmented, and
the network will address this.
The project is supported by the European Regional Development Fund (ERDF) through
the INTERREG IVB programme.
CONTACT
Alma ERENSTEIN
NGAGE
+44 (0)18.44.210.462.
alma.erenstein
@ngagesolutions.co.uk
The objectives of the project are:
◗ To facilitate innovation by developing and implementing collaboration between clusters, SMEs and other organizations in the security sector.
◗ To create specific opportunities for collaboration in the security sector through common classification and micro-cluster activity.
◗ To create highly focused Security Transnational Interest Groups within three themed
networks of world class excellence: Security of Information Systems, Critical Infrastructure, and Citizens.
◗ To improve the quality of partnerships by providing SMEs with a better understanding
of their role in complex innovation & research partnerships.
◗ Organization of a number of transnational seminars.
◗ Creation of five new Security Transnational Interest Groups in the fields of Identity
Management, Cyber Security, Data Protection & Data Intergrity, Coordination of Critical Infrastructure Security, and Safe Cities.
PARTNERS
SMEs:
NGAGE (UK - LEADER)
Clusters:
LSEC (LEADERS IN SECURITY)
(BE), SITC (SECURITY
INNOVATION TECHNOLOGY
CONSORTIUM) (UK),
SYSTEMATIC PARIS-REGION(FR)
ASSOCIATE PARNERS
FUTURSECURITY BADENWÜRTTEMBERG (GER),
SEGURIDAD MADRID (SP),
TELETRUST (GER)
◗ Creation of a shared classification for the wider security sector (taxonomy) that will
enable our partners to locate potential business partners for their members across
national boundaries.
◗ Development of a searchable transnational database of security sector organisations
that will publish on the SIGNATURE website (www.securityinnovationnetwork.com)
and that will enable SIGNATURE members to search for transnational partners.
◗ Identification of gaps in the membership base of the SIGNATURE partners that currently hinders the succesful development and exploitation of security products.
◗ Support action to build new partnerships in other European countries.
PROJECT DATA
Coordinator:
NGAGE
Call:
INTERREG IVB
Start date:
April 2009
Duration:
43 months
Global budget (M2):
1.8
Project supported by:
Funding (M2):
0.9
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SMARTVISION
Système multi senseur
de détection d’objets cachés
pour une meilleure gestion
du flux passager
The SmartVision project deals with the development of an innovative multi-sensor
system for detecting suspicious objects which are concealed on moving human bodies.
A first part consists in optimizing a passive commercial millimeter wave (mmW)
detector by adding a phase mask in order to increase the depth of field of the system.
The second part concerns the development of an active mmW imager based on
synthetic aperture radar in order to obtain more accurate data about the suspect area
first detected by passive imager (shape, nature of the material…). These two sensors will
be then integrated and tested in a non-collaborative passenger screening system in
order to demonstrate theirs performances to the end users.
◗ Improvement of the performances of a commercial full field millimeter-wave imager.
◗ Development of a low-cost focused active millimeter-wave imager at 77 GHz.
◗ Development of advanced video analysis algorithms for the detection of suspicious
areas on millimeter-waves images.
◗ Integration of these sensors and algorithms in a global system for automatic
inspection of a pedestrian: 'on-the-move' screening procedure.
COMPLETED
PROJECT
CONTACT
Thierry LAMARQUE
THALES SERVICES
+33 (0)1 69 41 55 23
thierry.lamarque
@thalesgroup.com
PARTNERS
Large companies:
CEA LIST, THALES RESEARCH
& TECHNOLOGY, THALES
SERVICES
SMEs:
ATELIERS LAUMONIER, SART
CERAPS, INSTITUT TELECOM,
LABORATOIRE C. FABRY,
INSTITUT D'OPTIQUE
GRADUATE SCHOOL
◗ Publications:
• Système multi-senseur de
détection d’objets cachés
pour une meilleure gestion du
flux passager (SMARTVISION)
- WISG 2011, Troyes.
• Multi-sensor millimeter-wave
system for hidden objects detection by non-collaborative
screening - SPIE Defense,
Security & Sensing 2011,
Conference 8022, Orlando,
USA.
PROJECT DATA
Coordinator:
THALES SERVICES
Call:
ANR
Start date:
June 2009
Duration:
27 months
Global budget (M2):
1.8
Funding (M2):
0.8
MOBISIC, SIC
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Smart system based on dedicated
Optical Fiber Sensing cable
and distributed measurement
for perimetric detection
The aim of this project is to develop and integrate a system enabling permanent
monitoring of areas of critical infrastructures. The sensing technique based on Optical
Fiber Sensing technology complies with several critical criteria, achieving the following
features: be operational 24/24 h a day, in any weather conditions, and compatible with
existing surveillance solutions. Such distributed sensor is able to detect and localize the
consequence of an intrusion attempt, allowing determining in real time the profile of the
strains along the dedicated fiber cable with a remote localization of 1 m resolution over
several km if needed.
CONTACT
PARTNERS
Based on a straight forward optical measurement technique, this approach addresses
many of the difficulties inherent in the more traditional methods. An intrinsically sensitive cable that is literally km long can perform as a “dense array” of sensors, but without
their cost and complication. These sensor cable also provide important advantages: the
optical energy is contained within the fiber, providing eye-safe and stealthy operation, the
linear path over which the cable provides detection need not be straight – a very long intrinsic sensor cable can be can be installed on fences, up walls, in serpentine fashion.
COMPLETED
PROJECT
Dr Pierre FERDINAND
CEA LIST
+33 (0)1 69 08 83 39
[email protected]
Large companies:
ACOME, RTE
SMEs:
SITES
CEA LIST, CEA SPACI
PROJECT DATA
◗ Publications:
• Barrière intelligente à haute efficacité de détection et localisation précise d’intrusion
par fibres optiques pour la surveillance périmétrique des sites sensibles, Workshop
Interdisciplinaire sur la Sécurité Globale (WISG’08), Troyes, 29-30 janvier 2008.
• Le projet SmartFence : vers une surveillance périmétrique des sites sensibles par fibres optiques, Workshop Interdisciplinaire sur la Sécurité Globale (WISG’09), Troyes,
27-28 janvier 2009.
• SmartFence : une barrière intelligente à fibres optiques au service
de la surveillance périmétrique des
sites sensibles, Workshop Interdisciplinaire sur la Sécurité Globale
(WISG’10), Troyes, 26-27 janvier
2010.
• SmartFence : un système de surveillance périmétrique basé sur des
Capteurs à Fibres Optiques répartis
par rétrodiffusion Brillouin, Workshop Interdisciplinaire sur la Sécurité Globale (WISG’11), Troyes, 25-26
janvier 2011.
Coordinator:
CEA LIST
Call:
ANR
Start date:
March 2008
Duration:
45 months
Global budget (M2):
1.45
Funding (M2):
0.75
◗ Patents:
Système de surveillance périmétrique
par fibre optique (BD11041 BH).
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SMARTMESH
ON GOING
PROJECT
Definition and experimentation of an autonomous, distributed, discrete, modular, reconfigurable surveillance system for several sites, mainly isolated and powerless.
◗ Main challenge of the project is to design and realise a autonomous, wireless, generic,
modular network of sensors (acoustic, video, seismic, PIR) including a secure communication, an optimised power system and an embedded computer.
◗ The reduction of the global consumption is a major goal of the project through a gen-
CONTACT
Caroline SENZIER
SAGEM DEFENSE SECURITE
+33 (0)1 58 11 97 28
[email protected]
eral approach of the design using low power equipment, efficient power management
and smart algorithms of fusion and communication.
◗ To define an architecture for an autonomous sensor dedicated to security, modular
and based on existing standards, allowing to fulfill the needs for surveillance of closed
or open areas.
◗ To improve the power autonomy of the system:
• by reduction of the power
consumption of the sensors;
• by introduction of smart algorithms into the sensors
to reduce the power consumption;
• by an optimized power
supply management including a fine battery and
solar cells management;
• using low power consumption communications.
Large companies:
INEO DEFENSE, SAGEM
DEFENSE SECURITE
SMEs:
ACCUWATT, EVITECH, ORELIA,
PRODOMO, REFLEX-CES,
TUNECHARGER
CEA, IEF, INRIA, TELECOM
SUDPARIS
PROJECT DATA
Coordinator:
SAGEM DEFENSE SECURITE
◗ To improve the sensors, including acoustic detection and embedded video processing to detect intrusion.
◗ To make easier the deployment for the end user, by using simplified adhoc communications for sensors network.
◗ To include some intelligence/fusion capacity and be able to host some decentralised
application software.
◗ To allow remote control and global fusion and optimisation (health management, ability to send qualified results to fusion and in the other side to integrate information
from global situation awareness).
◗ To validate the concept of such a multifunction autonomous sensor and the technical issues in some use-cases with a real experimentation.
◗ The project has been restructured in November 2010 (introduction of a new partner:
Accuwatt).
◗ First tasks concerning user's requirement collection have been done and the global
architecture will be finalized in May 2011. Detailed studies of the components of the
demonstrator have started in January 2011. The scenario for the experimentation will
be defined by the end of 2011 for a field experimentation during Summer 2012.
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PARTNERS
Call:
FUI8
Start date:
February 2010
Duration:
36 months
Global budget (M2):
4.2
Funding (M2):
1.9
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Portable Inspection System
using X-rays for Detection
and identification of Explosives
and chemical Risks for Security
The discovery of a suspect object in a public domain creates a crisis situation and results in implementing protocols to evaluate the threat and secure the area.
The aim of the SPIDERS project is to validate the feasibility of a new enhanced portable
inspection system based on complementary X rays techniques.
PROJECT > 3 SCIENTIFIC ISSUES + DEMONSTRATOR
◗ 3D & bi energie imaging without mechanical displacement using multiple X ray
COMPLETED
PROJECT
CONTACT
Pascal PONARD
THALES ELECTRON DEVICES
+33 (0)4 50 26 83 77
[email protected]
beams based on carbon nanotube photo-cathodes.
◗ CdZnTe high resolution spectrometric linear detector working at ambient temperature.
◗ 3D diffraction imaging allowing spectral analysis for identifying illegal materials.
PARTNERS
◗ First significant lifetime demonstration of a CNT cathode in a X
ray diode during 3months in
continuous operation.
Large companies:
THALES ELECTRON DEVICES,
THALES RESEARCH
& TECHNOLOGIES
SMEs:
CYXPLUS, D-LIGHTSYS
◗ Developpment of a new spec-
CEA - LETI, ECOLE
POLYTECHNIQUE - LPICM,
INSA - LYON-CNDRI
tral analysis method based on
Energy Dispersive X-Ray Diffraction using a limited database of illegal substances.
◗ A dedicated 3D reconstruction
algorithm, based on an iterative technique implemented within a multi-resolution approach has been developed.
PROJECT DATA
Coordinator:
THALES ELECTRON DEVICES
◗ Publications:
Co-label:
MINALOGIC
10th ECNDT, Moscow 2010, 07 – 11 juin 2010 “Feasibility study of X-ray diffraction for a portable
inspection system” – Angela Peterzol, Philippe Duvauchelle, Valerie Kaftandjian and Pascal
Ponard: [INSA Lyon, TED]; “Spatial super-resolution for line parallel imaging in energy dispersive X-ray diffraction” – Ferréol Soulez, Charles Crespy, Valerie Kaftandjian, Philippe Duvauchelle, Angela Peterzol, Pascal Ponard: [INSA Lyon, TED]; “Design and optimization of a
tomosynthesis system using a multiple X-ray source based on carbon nanotubes” – Anne Frassati, Véronique Rebuffel, Vincent Moulin [CEA LETI, INSA].
◗ Patents:
• Réf TPI 65213: Source de rayons X à photocathode à nanotubes de carbone -Extension
PCT/EP2009/050809 le 23.01.2009.
• Réf TPI 65981: Source de faisceau électronique collimaté à cathode froide -Extension
PCT/EP2010/057734 le 2.06.2010.
• Réf TPI 65213: Source de rayons X à photocathode à nanotubes de carbone (2008) Dépôt brevet
France 08.00397 le 25.01.2008.
• Réf TPI 65981: Source de faisceau électronique collimaté à cathode froide (2009) - Dépôt brevet
France 09.02733 le 05.06.2009.
Call:
ANR
Start date:
March 2008
Duration:
33 months
Global budget (M2):
2.9
Funding (M2):
1.5
• Definition of the system architecture for the imaging in transmission and diffraction.
• Optimization of 3D reconstruction method based on X ray multi-sources and compatible with the
operational constraints.
• Realization of X ray CNT diodes at 100 kV.
• Sept. 2010: final evaluation of a demonstrator in Bourges ETBS / DGA with explosive materials
hidden in objects.
A spin-off called MultiX SA has been created by Thales Electron Devices and will develop spectrometric detectors for Security market.
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Security Radiation Portal Monitor
ON GOING
PROJECT
Development of a system for detection and identification of gamma radioisotopes using
plastic scintillator, combined with neutron detection.
CONTACT
François CHLOSTA,
SAPHYMO
+33 (0)1 69 53 73 00
[email protected]
◗ The Saphymo’s and CEA’s common development has shown in a previous project
(MA-NRBC) that it was possible to detect and discriminate gamma and neutron
radiation using basic plastic scintillator (PVT) purchased in the shop, which is normally used for gamma detection only.
◗ In the SRPM project, partners will develop a low cost system to identify the radioisotopes by spectroscopy to avoid “innocent” alarms AND detect and discriminate
gamma and neutron radiation.
◗ The main development axis will be in the signal processing, data processing and materials study.
PARTNERS
SMEs:
SAPHYMO
ADENEO
CEA LIST
Startup of the project.
PROJECT DATA
Coordinator:
SAPHYMO
Call:
FU10
Start date:
January 2011
Duration:
24 months
Global budget (M2):
3.3
Funding (M2):
1
MA-NRBC
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and people
TARANIS
Technologie pour l’Apprentissage
des Risques majeurs par
l’ANImation de Simulations
The ability to promptly and appropriately react to critical events during a crisis is a
crucial skill for crisis managers (operationals, politics, industrials) confronted to
complex environments, facing a diversity of actors, and in particular the media. Relying
on upcoming behavioural simulation, cutting edge visualization and interaction interface
and world leader GIS system, TARANIS aims to research and develop in collaboration
with potential end-users and experts a crisis management solution providing: simple
planning and crisis management tools, an easy way to build crisis complex scenarios,
GIS-based visualization of the entire situation, value for money training and exercising
with collaborative sessions potentially available from the web.
PROJECT RESULTS
COMPLETED
PROJECT
CONTACT
Jérome COMPTDAER
MASAGROUP
+33 (0)1 55 43 13 30
jerome.comptdaer@masagroup
.net
PARTNERS
◗ Technologies:
Researches on crisis management conducted during the
project lead on both the enhancement of a unique decisionnal simulation and the
creation of an innovative Timeline for crisis tasks, phone discussions and video recording
management.
• The simulation describes and implements new dynamic population behaviours in
case of emergency, implements the procedures of security services while integrating 3rd part-simulation information (weather or CBRN clouds) making it possible to take into account information like the state of main transport, energy,
communication, water networks as well as some major natural risk factors and
technological risk factors;
• the Timeline provides a very intuitive and accurate look-and-feel tool to display hundreds of tasks, assign organization staff roles and monitor the crisis cell. These
tools smoothly interact together in order to provide a coherent and homogeneous
platform to prepare, run, replay and analyse crisis management exercises.
◗ Publications:
• “Se préparer à l’impensable : la simulation comportementale et la plate-forme
d’entraînement à la gestion de crise TARANIS - Actes du Workshop Interdisciplinaire sur la Sécurité Globale” (WISG’07).
• “TARANIS, de la préparation au débriefing, retour d’expérience sur un exercice de
gestion de crise - Actes du Workshop Interdisciplinaire sur la Sécurité Globale
(WISG’09)”.
SMEs:
ESRI FRANCE, MASAGROUP
UNIVERSITE PARIS SUD (LRI)
PROJECT DATA
Coordinator:
MASAGROUP
Call:
ANR
Start date:
January 2007
Duration:
27 months
Global budget (M2):
1
Funding (M2):
0.6
The TARANIS platform has been used in real conditions during a crisis management
exercise organized by the CODAH (Le Havre agglomeration clusters) on December
2008 and March 2009. The exercises lasted one full day in instrumented rooms and
targeted public security organizations, emergency operationals, politics and industry managers. The animation room was featured with two large screens displaying the
timeline and the simulation, a call center and monitoring tools. At the end of the
exercise, the user feedbacks concerning the platform use were: disturbing, structuring and improving. The final demonstration is planned on June 2009.
The TARANIS platform enables crisis management organization to prepare their
exercises online and use them during training and exercising without any technical
skills. Since the simulation embbeds a decisional AI technology and hence is highly
autonomous, it requests very low manpower to handle it through a web-browser. The
TARANIS platform may revolutionize crisis management training.
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Technologies et investigations
sécuritaires pour téléphones mobiles
et appareils numériques mobiles
The main goal of the TISPHANIE project is to propose a systematic and structured
methodology, together with the related tools and evaluation process enabling the
concerned users (MNOs, application developers, police laboratories, civil security
operators) to assess rapidly the security of all major components embedded in personal
devices (mobile handsets, PDAs, netbooks, PMR terminals) for critical or value-added
applications.
ON GOING
PROJECT
CONTACT
Jean-Pierre TUAL
GEMALTO
+33 (0)1 55 01 61 60
[email protected]
PARTNERS
The key innovations of the project will include:
◗ A typology of all types of attacks that may target consumer or professional mobile
terminals.
◗ A characterisation of the terminal main-component's resistance to physical, logical,
protocol or cryptographic attacks.
◗ A set of innovative HW/SW characterization equipements.
◗ A set of reference tests enabling to assess component security resistance.
◗ A time/perfomance optimized and multi-criteria methodology suitable for the security evaluation of mobile terminals.
Large companies:
CASSIDIAN (EADS-DS), EADS
IW, GEMALTO, TRUSTED LABS,
TRUSTED LOGIC
BERTIN TECHNOLOGIES
SMEs:
CRYPTOEXPERTS
CEA-LETI, ENSM SAINTETIENNE, UNIVERSITE DE
LIMOGES, UVSQ
PROJECT DATA
Coordinator:
GEMALTO
Co-label:
ELOPSYS
Call:
FUI7
The project has currently produced a first set of deliverables including:
Start date:
September 2009
◗ the definition and qualification of assets to be protected;
◗ the definition of threats, attack strategies and possible countermeasures in modern
Duration:
24 months
handsets and PMR terminals;
◗ the evaluation of most popular cryptographic algorithms used in 2G/3G networks.
SFR as joined the Consortium as self-funded partner to contribute to the definition of
the project demonstrators and validate the platform evaluation methodology proposed
by the partners.
214
Global budget (M2):
7.5
Funding (M2):
2.7
CRYPTOSMART, PFC, TSC
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Traçabilité Opérationnelle
Continue à Haute Autonomie
Tracking of vehicles, objects and people can prevent and protect against various risks
and threats, as to protect citizens against organized crime and terrorism. Use of
miniaturized beacons to locate their bearers in preventive or crisis frames - cooperative
or not. Such beacons are a mean to collect information and develop intelligence to
monitor criminal and terrorist organizations. They can also protect vulnerable people
as well and precious or dangerous goods or assets.
COMPLETED
PROJECT
CONTACT
Alain SOULIER
DEVERYWARE
+33 (0)6 68 48 44 81
[email protected]
The TOCHA project shall prove feasibility of long-time, continuous tracking in multiple
conditions, facing adverse physical constraints or counter-measures.
Goal is to enable long-term, real-time tracking in open or covert environment, during
one or several years, without limitations in installation or remote controllability of
missions.
TOCHA demonstrated the feasibility for a real-time tracking beacon capable of high autonomy, and adapted to the constraints of security missions.
Important innovations were made in the areas of maximum isotropic antennas and
micro fuel cell. They were successfully tested. Many of the innovations arising from the
project have already been integrated into Photospace and Deveryware productions, and
are already available for security missions. Tocha beacon will be available in late 2011
PARTNERS
SMEs:
DEVERYWARE, PHOTOSPACE
CEA, IETR
PROJECT DATA
Coordinator:
DEVERYWARE
Call:
ANR
◗ Publications:
• IEEE Antennas and Wireless Propagation Letters, Vol.8, 2009.
• "Quasi Unidirectional Radiation Pattern of Monopole Coupled Loop Antenna".
• IEE Electronics letters, vol 45, n°23, "Frequency tunable Monopole Coupled Loop
Antenna with broadside radiation
pattern".
• 15ièmes journées Nationales microondes (JNM 2007 - Toulouse).
◗ Patents:
Start date:
February 2008
Duration:
34 months
Global budget (M2):
1.9
Funding (M2):
1.1
R20070006787 20070927 "Antenne
compacte et accordable pour terminal
d'émission et/ou de réception"; EP
2008/062870; 2009/0047900A1.
LEA
• Product: new beacon (availability
2011 Q4) including multi-technology
location techniques (A-GPS, GSM
Cell-Id, radiogoniometry) with seamless switch to most appropriate technology, high autonomy (‹‹ 1 year),
optimized isotropic antennas.
• Services: Advanced secure web services for beacon control "on the fly", mission
management functions (alert escalation, areas management,…).
◗ Job creation:
4 jobs at Deveryware and Photospace.
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Trusted Secure Computing
COMPLETED
PROJECT
The goal of the TSC project was to provide the basic components enabling and enforcing security
and trust in Information and Communication Technologies. More precisely, the project focused on
the following aspects:
◗ develop the HW (and embedded SW) silicon devices enforcing secure and trusted computing,
including: Trusted Processor Modules, Hardware Security Modules, Trusted Software Stacks,
Secure Personal Tokens,
◗ develop suitable trust concepts and architecture elements for all application domains targeted
by the project, including computing, mobile and consumer,
◗ coordinate all European contributions related to Trusted Computing standards, and especially
in the scope of the Trusted Computing GroupTM (TCG) initiative.
The TSC project is a Eureka/Medea+ project, also labelled by the Systematic and SCS
Competitiveness clusters.
The TSC project has delivered new generations of trusted secure components, pushing forward
existing architecture, bandwidth and performance limitations. It helped the creation of complete
trusted platforms in all TSC target application domains, including new fields such as PMR,
consumer electronics or wireless products. In addition, component scalability, mobility, multilevel security and infrastructure concepts were introduced enhancing the scope of applicability of
the Trusted Computing group (TCG) standards. The project developed also new advanced methodology
concepts such as Trust Metrics and made several contributions to the ISO and TCG organization,
leading especially the international work on Authentication in the relevant working groups.
◗ Products: At the end of the project the following
components were available:
• New 32bit TPM circuits with faster I/Os and providing 3 to 10 time increase in overall performance
• New generation of Personal Secure Token and related management infrastructure, aimed at enforcing both the secure remote administration of
fixed and mobile terminals and user-privacy
• New high-performance crypto-engines (HSM) for
servers, offering a ten-times improvement in
cryptographic operations
◗ Patents: 6 patents submitted during the life of the
project
◗ Publications: 3 presentations made at international conferences, 8 scientific papers were sumitted in international journals
The TSC components were integrated by the partners in several demonstrators showing new capabilities in the global security area, such as e-banking or e-government from a TV SetTopBox, DRM
transcodig, PMR terminals, File sharing in Wide Entertainment Networks, Anonymity Management
in Mobile Networks, Virtualization and Multi-level security computing platforms.
The immediate exploitation of project results has started by all TSC partners, e.g.:
• Gemalto is already exploiting the industrialized version of the Personal Secure Token and related infrastructure on a world-wide basis (IAM and Mobile Identity management)
• Bull SAS is currently working with government agencies for the use of the HSM developed in
the project in relation with the deployment of the next biometric passport generation
• EADS and Bertin are exploiting the project secure boot and virtualization SW in their secure
computing service offer.
• STMicroelectronics is commercializing the TPM solutions developed in TSC towards all major
PC manufacturers in Asia and US.
• Orange Labs is starting integrating the Anonymous Access Control Services innovation of the
project in their global NFC service infrastructure.
216
CONTACT
Jean-Pierre TUAL
GEMALTO
+33 (0)1 55 01 61 60
[email protected]
PARTNERS
Large companies:
BULL, CELESTICA
VALENCIANA, EADS,
FRANCE TELECOM, GEMALTO,
STMICROELECTRONICS,
PHILIPS
BERTIN TECHNOLGIES
SMEs:
TB-SECURITY, TB-SOLUTIONS,
TECHNIKON
CEA LETI, ENSM SAINTETIENNE, FUNDACION
EUROPEAN SOFTWARE
INSTITUTE, LIP6
PROJECT DATA
Coordinator:
GEMALTO
Co-label:
SCS
Call:
MEDEA+
Start date:
October 2007
Duration:
27 months
Global budget (M2):
16,6 in France, 32 globally
Funding (M2):
5,2 in France
PFC, TISPHANIE
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VIDEO-IDentification
ON GOING
PROJECT
VIDEO-ID is intended for the protection and for the security of complex and open spaces as
a station, a place of interconnection of various ways of transportation, a shopping center, an
airport hall, …
Its principal objective is to follow and identify a person through cameras networks using its
calculated visual signature (color, texture, face, iris, behavior).
It aims to:
◗ Define the concepts of use of people identification by videosurveillance.
◗ Analyze the legal and societal aspects which will bring an improvement of the security
while preserving the fundamental liberties of individuals.
◗ Define strong quality criteria which will allow to reduce the false alarms (reliable identifications in not cooperative situations and in real environment).
◗ Demonstrate the automatic workflow and performance of these operations in real conditions.
CONTACT
Manuel CARBALLEDA
THALES SECURITY SYSTEMS
& SOLUTIONS S.A.S.
+33 (0)1 73 32 26 51
manuel.carballeda
@thalesgroup.com
PARTNERS
◗ WP1 – People detection &
tracking
• People detection in a robust
way in crowded scenes and
tracking through a network
of cameras using two levels:
• At the first level, moving objects detection in 3D static
scenes thanks to pre-calibrated cameras.
• At the second level, applying
local features such as Haar,
HOG, colors and Covariance
in the movements areas
from the first level, especially
when there’s occultations.
◗ WP2 – Face detection & tracking
• SoftBiometrics (height, weigth, color…) to help the detection and tracking.
◗ WP3 – Iris Identification on video images
• Non collaborative Iris acquisition and recognition, based on a previously Face detection
and tracking.
◗ WP4 – Ethical and Legal aspects (link with KIVAOU project)
• Comparative approach with China and the USA - even more (United Kingdom of course
with different reports, Home Office, House of Lords).
◗ WP5 – Demonstration
• Complete integrated system.
The deliverable D1, including the update D4 and scenarios D5, has been sent the 17/03/2009.
The deliverable D2, public VIDEO-ID Web site, is online: http://www-sop.inria.fr/pulsar/
projects/videoid/
The deliverable D3 & D6 (annual reports) have been been delivered.
VIDEO-ID poster and article presented at WISG09 27-28 January 2009 and WISG10 26-27
January 2010 and WISG11 25-26 January 2011.
Equipment installation and acquisition of videos on the ENP Oissel-Rouen site in common
with KIVAOU, SCARFACE, QuiAVU projects (early December 2009) - 23 Terabytes of non
compressed videos (STSI/CTSI).
Ethical and Legal aspects Workshop in common with KIVAOU project (November 10, 2009).
Large companies:
& SOLUTIONS S.A.S.
CREDOF-PARIS X, EURECOM,
INRIA, TSP
PROJECT DATA
Coordinator:
& SOLUTIONS S.A.S.
Co-label:
SCS
Call:
ANR
Start date:
February 2009
Duration:
36+6 months
Global budget (M2):
1.9
Funding (M2):
0.9
KIVAOU, MOBISIC, VIDEO-ID
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Visualisation, Interpretation
et Gestion des Interceptions Electroniques
The goal of the VIGIEs project is to provide French authorities a demonstrator to capture,
to store and to analyze efficiently all intercepted information from fixed telephony, VoIP,
mobile telephony, etc but also from the Internet network. The project takes then into
account the new needs related both on Legal Interceptions and connection Data
Retention. The overall treatment function will be supported by a common open software
platform which allows to define a common definition of data structure, to share
efficiently data and to integrate rapidly new treatment services. The demonstrator
should facilitate the behavioural analysis of the targets by the authority and assist them
with decision making processes which provide the most appropriate level of information,
analysed, correlated and marked with a level of assurance.
The project plan will deliver a complete set of technical means to make the global
activity of Lawful Interception and Data Retention. Themain technical means will be:
◗ Capture capabilities.
◗ Storage capabilities.
◗ Intelligent treatment capabilities.
ON GOING
PROJECT
CONTACT
Arnaud ANSIAUX
ALCATEL-LUCENT BELL LABS
FRANCE
+33 (0)1 30 77 26 21
arnaud.ansiaux
@alcatel-lucent.com
PARTNERS
Large companies:
ALCATEL-LUCENT,
ORANGE R&D
SMEs:
CABINET ALAIN BENSOUSSAN,
INTELLIGENCES, SICX,
VECSYS, VECSYS RESEARCH
CEA LIST, LIP6, ONERA,
TELECOM & MANAGEMENT
SUDPARIS
PROJECT DATA
Coordinator:
FRANCE
Call:
ANR
The project starts its second year. The main actions during this fisrt year have been to
meet end-users to define operationnal scenarios and to understand clearly main expectations of the new system producted. During this first phase the definition of a technical target for the final demonstrator (step 1) have been made which include existing
telco architecture but also futur architecture. In paralell, some first approachs of intelligent treatment have been developped and finaly studies around legal part have been
also started.
218
Start date:
January 2009
Duration:
30 months
Global budget (M2):
3.7
Funding (M2):
1.9
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eXtended VISION
COMPLETED
PROJECT
The XVISION project aims at developping a new ultra-wide dynamic range camera. This
camera provides a high quality image of a scene by keeping the contrast information
independent of the scene physical contrast without any optical, electrical and mechanical
adjustment. Thus the designed camera is ideal for a large variety of applications where
the scene illumination is either difficult or highly contrasted such as automotive vision,
surveillance… The second purpose of the project is to suggest new intelligent image
processing algorithms fitted to the image provided by the camera and to validate its
efficiency in several situations like public transportation and the sensitive sites protection.
CONTACT
PARTNERS
The XVISION project offered the possibility to develop a true logarithmic sensor using
an array of photodiodes operated in photovoltaic mode. Contrary to most logarithmic
imager designs, the array of photodiodes is operated in photovoltaic mode and the opencircuit voltage across the p/n junction is proportional to the exact and pure logarithmic
value of the incident light intensity. An analog camera which incoporates this sensor has
been developped. Secondly, new intelligent image processing algorithms fitted to the
image provided by the camera have been developped. Thus, the advantages and the ways
of improvement have been highlighted.
Mathilde BERNARDIN
+33 (0)1 69 35 47 70
[email protected]
MARTEC
SMEs:
EVITECH, HGH SYSTEMES
INFRAROUGES, NIT, SINOVIA
INRIA, TELECOM SUD PARIS
PROJECT DATA
Coordinator:
Call:
FUI4
Start date:
January 2008
Duration:
24 months
Global budget (M2):
1.9
◗ Products:
Funding (M2):
0.9
• Ten prototypes of Analog Cameras have been produced and tested in different applications: - Surveillance - Intrusion detection - Face recognition - obstacle detection. For
each application, the camera integrating the new sensor has been compared with
standard cameras. Besides, new algorithms have been developped in order to take
into account: - noised light conditions (glare), highly dynamic scenes. The results of the
differents tests have shown that the XVISION camera has the following advantages:
- low noise - High image quality in backlight or through light halos. Thus, the automatic
detection is made easier and face recognition is more efficient particularly when the
scene illumination is highly contrasted. Finally, the cameras developed in the project could, after evolution and adaptations, become an innovative product, particularly
well adapted for applications in the field of surveillance serving cities, sensitive sites,
industrial sites and buildings, face recognition or obstacles detection by stereovision.
◗ Publications: 3.
• Promotion of the XVISION camera during various exhibitions.
219
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Telecoms Working Group
Thierry HOUDOIN,
WG President
[email protected]
FRANCE TELECOM
220
"In the past 10 years, the major evolutions of the telecommunications world, mobile phone, broadband access and Internet
services, have positively impacted everybody's life in Europe.
Telecoms Working Group goals are to federate and boost Paris
Region’s ICTs ecosystem and to conduct experiments in the field
of telecom technologies and services with global visibilities. It
rises to the challenge of global competition by offering companies and citizens new application solutions and helping to set
industry standards. The experiments planned will concretely
contribute to the attractiveness of Paris region.”
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REQUIREMENTS AND NEW USES
years will see the real start of
"Internet of Things", so we will
have to develop mechanisms to
handle very large number of
devices with communications
capabilities. Minimization of the
ICTs ecological impact will be an
important research field in the
next years.
Information and Communication Technologies, both fixed
and mobile, are present in the professional and private lives
of individuals. The needs are still growing, for example with
new video usages widespreading in the telecommunication networks, so
seeking with higher bitrates is mandatory, both
for fixed and mobile domains. With the availability
of smart phones, usages in
mobility are exploding
today, and the design of solutions allowing secure pervasive
access to remote content (e.g. distributed in clouds) is a
priority for the working group. Efficient usage of complementary radio technology such as WiFi and 2G/3G/4G is one
example of topics investigated in research projects.
Users require controlling their
communications with high quality, low cost and simplicity, this is a challenge for the
industry and operators. Network security and reliability
is a key point for achieving this mandatory users'
requirement.
The design of new services linked to technological
advance in telecommunication is also a priority of the
working group.
In the business area, the development of Cloud Computing will require new network solutions. The next few
THE TELECOMS WORKING GROUP WITHIN SYSTEMATIC
◗ R&D financed Projects: 56
◗ 86 SMEs
◗ Total investment: 248 M2
Nunzio SANTORO,
Marc BOURGAREL,
WG Vice-President
[email protected]
INSTITUT TELECOM-TELECOM SUDPARIS
[email protected]
SYSTEMATIC
ALCATEL-LUCENT
CEA
CITY PASSENGER
EGIDE
INRIA SACLAY
SAGEMCOM
SUPELEC GIF
UNIVERSITE DE VERSAILLES
ALTRAN
IP LABEL NEWTEST
SEQUANS COMMUNICATIONS
Olivier AUDOUIN
Jean-Noël PATILLON
Bruno DUVAL
Ignace DUPON
Bernard ODIER
Thierry LESTABLE
Hikmet SARI
Gilles BOURDÉ
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Samir TOHME
Véronique VÈQUE
Mehand GUIDDIR
William RANG
Guillaume VIVIER
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Telecoms WG
221
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High speed networks
100GRIA
100Gbit/s Réseau Internet Adaptif
ON GOING
PROJECT
The objective of 100GRIA is to design, assemble and test a prototype of the new generation
of 100 Gb/s terminals and to redefine rules of conception and exploitation for 100 Gb/s
optical networks. The goals of the project are to optimize new technologies which are
mandatory for this high bit rate transmission: new integrated photoreceiver compatible
with advanced modulation formats, pump modules integrating powerful semiconductor
diodes for distributed Raman amplification, planning and dimensioning tools with new
engineering rules enabling at least 1 500 km reach. One of the important outcome of the
project will be the test of a photoreceiver on an Alcatel-Lucent product platform.
CONTACT
Christian SIMONNEAU
FRANCE
+33 (0)1 30 77 27 97
Christian.Simonneau
@Alcatel-Lucent.com
Design and assembly of a new generation coherent receiver prototype, achieving better integration and compatibility with new modulation formats which will increase the
reach of the transmission systems. The prototype will be tested on an Alcatel-Lucent
product platforms.
◗ Powerful diodes (> 500 mW) to allow for higher
power Raman amplifiers, and to simplify the
architecture and lower the cost of existing Raman
amplifiers.
PARTNERS
Large companies:
ALCATEL-LUCENT,
FRANCE TELECOM,
III-V LAB
EGIDE
◗ Rules of conception of the connections at 100 Gb/s
SMEs:
3S PHOTONICS, ADVEOTECH,
RED-C OPTICAL NETWORKS LTD
at least 1 500 km reach, with and without Raman
amplification, which will allow the migration from
systems operating at 10 Gb/s and 40 Gb/s towards
100 Gb/s systems.
◗ Develop tools able firstly to dimension the network
thanks to routing which optimizes the usage of resources, while taking into account
the physical impairments for 100?Gbit/s signal; and secondly to estimate the influence of packet aggregation and its interaction with the 100 Gb/s optical layer.
◗ The project will begin mid 2010
◗ Expected main outcomes:
• New engineering rules for optical network with 100 Gb/s channels enabling ultralong reach, compatiblity with 10 Gb/s systems;
• A Packaged photoreceiver integrating Wideband (28 GHz) and linear (up to 10 mA)
photodiode and Differential Trans-Impedance Amplifier will be test on a product
platform;
• A Packaged pump module with 1.2 W output power integrating the high power
semiconductor diodes (550 mW) developed in the project.
TELECOM SUDPARIS,
UNIVERSITE DE NANTES
PROJECT DATA
Coordinator:
FRANCE
Call:
FUI9
Start date:
June 2010
Duration:
27 months
Global budget (M2):
5.4
Funding (M2):
1.6
Telecoms WG
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3MING
Mobilité Multi technologie
Multi-homing
COMPLETED
PROJECT
The aim of the 3MING project is to develop solutions for multi-homing management
that allow the simultaneous use of access technologies, one per interface. It includes
concurrent sessions management, opportunistic session redirection, interface selection
and load sharing. In addition, this project aims to develop mechanisms for mobility
management in a multi-homing context. The current solutions are not able to manage
simultaneous access of several radio access technologies. The 3MING project targets
to enable seamless mobility, to optimize mobility and to deliver solutions for security
issues. Demonstrations have been realized, highlighting the interest of multi-homing
functionnalities and validating the choices done.
CONTACT
PARTNERS
The 3MING project has studied in depth the multi-homing topic, and the interactions with
other topics such as the mobility. DiA as a new algorithm for MADM method, FPS mechanism for solving the reordering problem in load sharing, mobility optimizations by using alternative interfaces, new authentication proposals, Mobike-X for use of IPsec in
multi-homing/mobility context are ones of the
challenges solved in the 3MING project. Five IETF
drafts have been submitted.
Erick BIZOUARN
FRANCE
+33 (0)1 30 77 17 24
[email protected]
Large companies:
FRANCE, ORANGE LABS
SMEs:
BEARSTECH
LIP6, TELECOM PARISTECH,
TELECOM SUD PARIS
◗ Publications:
• B. Liu, N. Boukhatem, and P. Martins, “New
Efficient Cross-layer And Multihoming Mechanisms At Layer-2 For Inter-RAT Handover
Between UMTS And WiMAX”, accepted fo
publication in Wireless Communications and Mobile Computing (WCMC) Journal,
2010.
• T. Cheneau, A. Boudguiga, M. Laurent, "Significantly Improved Performances of the Cryptographically Generated Addresses thanks to ECC and GPGPU", Journal of Computers &
Security, Elsevier, Vol. 29, Issue 4, pp. 419-431, http://dx.doi.org/10.1016/j.cose.2009.12.008,
Dec. 2009.
• X. Zhang, T.M.T. Nguyen and G. Pujolle, “Cooperative Mobility.
• Management in Multihomed End-to-End Communications”, 4th IFIP/IEEE.
• International Conference on New Technologies, Mobility and Security, Paris, France,
February 2011.
• M. A Tran, P.N Tran, and N. Boukhatem, “Strategy game for flow/interface association in multi-homed mobile terminals”, in proceedings of the IEEE International
Communications Conference (ICC’10), Cape Town, South Africa, May, 2010.
• A. Boudguiga, M. Laurent, “An ID-based Authentication Scheme For the IEEE
802.11s Mesh Network”, The 6th IEEE International Conference on Wireless and
Mobile Computing, Networking and Communications (WiMob 2010), Niagara Falls,
Canada, ISBN 978-1-4244-7741-8, October 11-13, 2010.
• Kassar Meriem, Kervella Brigitte and Pujolle Guy, « An Overview of Vertical Handover Decision Strategies in Heterogeneous Wireless Networks », Elsevier Computer Communications Journal, doi:10.1016/j.comcom.2008.01.044, January 2008.
PROJECT DATA
Coordinator:
FRANCE
Call:
ANR
Start date:
February 2008
Duration:
30 months
Global budget (M2):
2.3
Funding (M2):
1.1
Five IETF drafts have been accepted.
Presentation at ETSI during the FMCA interoperability event of the 802.21 framework
(5-7 October 2009). Open source delivery is foreseen.
Telecoms WG
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High speed networks
6_POD
Circuits Intégrés Photoniques
Pour haut Débit
6_POD aims to:
◗ Master a key technology within the field of very high bit rate METRO Access telecom
application.
◗ Answer to new markets needs linked to new services (Video on Demand, Entertainment..).
◗ Realise technological breakthrough thank's to new technologies development like
PIC (Photonic Integrated Circuits) to adress fabrication of very high bit rate (4x10Gb/s)
emitter receivers development to transmit @ 4 wavelength [WDM « Wavelength Division Multiplexing » technology] up to 40/80 km (Metro telecom market in a first step)
& potentially long haul -Intercity connexions- in a second step.
At this step following results have been obtained/ demonstrated:
◗ A first 4x10Gb/s compact (Compatible with CFP interface
standard) receiver module has been designed and fabricated using 4 APD [Avalanche Photodiode] with asso-ciated TIA [Trans Impedance Amplifier] integrated on a
single submount. All the building blocks (Especially coupling using a low loss Demux have been fully validated)
ON GOING
PROJECT
CONTACT
Emmanuel GRARD
3SPHOTONICS
+33 (0)1 69 80 58 59
[email protected]
PARTNERS
Large companies:
III-VLAB
EGIDE
SMEs:
3S-PHOTONICS, KYLIA
ENSEA
◗ Transmission measurements up to 50km SMF have been
performed. Following encouraging results at state of the
art have been obtained on 4 channels of the receiver module tested:
• Mean Sensitivity of -22 +/-4 dBm with a penalty ‹ 1.8dB.
[@ 11,3Gb/s using 4 wavelength (CWDM)]
• Considering the Emitter side, a second run of PIC [Photonic Integrated Circuit] components has been fabricated and tested. This PIC is an array of 4 DFB lasers (4
CWDM wavelengths). Run1 Blocking point have been solved on the DFB array especially the 4 wavelengths CWDM have been fully obtained.
• A third run has been launched in order to solve a remaining point (Losses in the InP
coupler external waveguide) to obtain full specifications. A second run of driver
array has been launched as well.
A complementary delay of 6 months has been agreed for the project, in order to finalise
project targets especially emitter module demonstration.
◗ RX 4x10Gb/s prototypes modules have been built lowing to state of the art results.
◗ Tx prototypes modules will be built in the final part of the project.
Telecoms WG
224
PROJECT DATA
Coordinator:
3S-PHOTONICS
Call:
FUI 5
Start date:
July 2008
Duration:
30 months
Global budget (M2):
6
Funding (M2):
2.3
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High speed networks
High Performance and High Availability
Packet Processing Engine for Multicore
Processors
The 6WINDGate project aims at developing high performance packet processing
software to extract the highest level of performance from the new generation of
multicore processors.
This software improves performance of standard operating system networking stack up
to 10x without modifying the interfaces between applications and the operating system.
6WINDGate implements layer 2 to layer 4 protocols (routing, security, firewall, QoS,
multicast, IPv6, all kinds of encapsulation…) and high availability mechanisms. It has
been designed to ensure complete software portability on market-leading multicore
processors.
6WINDGate is integrated in equipment (mobile and cloud computing infrastructure,
security, DPI, policy enforcement…) that have to process a fast growing amount of data
has to be processed at wire speed (several tens of Gbps).
COMPLETED
PROJECT
CONTACT
Eric CARMES
6WIND
+33 (0)1 39 30 92 10
[email protected]
PARTNERS
SMEs:
6WIND
◗ Patents: In Progress.
Development of the new version of 6WINDGate software for the new generation of multicore processors (Intel, NetLogic, Cavium) with an open architecture to interface easily different families of applications.
◗ Job creation: 4
- Business creation (best example): Software licensing with a tier-1 security and cloud computing infrastructure provider.
PROJECT DATA
Coordinator:
6WIND
Call:
OSEO
Start date:
December 2009
Duration:
17 months
Global budget (M2):
Not disclosed
Funding (M2):
Not disclosed
Telecoms WG
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Personalised Services
& Communications
AG@PE
Applications Géolocalisées
Accessibles aux Petites Entreprises
Deliver a set of marketing tools aiming at SMEs, which are quickly available and operational, can be easily customized, and include new technologies such as: mobility, location-based services, mapping services, context aware services.
AG@PE services are based on a Software as a Service co-operative platform
COMPLETED
PROJECT
CONTACT
Eric GODEFROY
EGYLIS
+33 (0)6 24 60 08 84
[email protected]
A collaborative web-based aggregation platform including a high-level virtual machine,
a server-based internet platform and advanced location-based and mapping services
to easily create on-demand business orientated applications for SMEs.
PARTNERS
SMEs:
BOTTIN CARTO, DEVERYWARE,
EGYLIS
TELECOM SUD PARIS
PROJECT DATA
Coordinator:
EGYLIS
Call:
FUI6
Start date:
December 2008
Duration:
24 months
Global budget (M2):
1.6
◗ Publications:
Funding (M2):
0.8
5 publications and 1 conference
• The project has set the basis of a multi-service Mobile solution that can address
many markets : retail, technical maintenance, support, home services, sales forces,
etc.
• The project has achieved the integration of different complementary services: location-based services, mapping services, mobility, statistics, reporting, data analysis,
multi-media communication.
• For each partner, this has helped enhancing existing products and solutions:
- EGYLIS: The Move-On Platform: a Mobility as a Service environment for on-demand Mobile applications.
- DeveryWare: the GeoHub, a set of location-based services for positioning, alerting, tracking etc.
- Bottin Carto: advanced web to print and mobility mapping services for eCommerce and and other business applications.
◗ Job creation: 8
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Antenne Mobile émission réception
compacte pour liaison satellite
The main objective of the AMORCE (www.anr-amorce.fr) project is to develop a new
very low-profile and low-cost beam steering antenna platform for IP on the move applications with emphasis on broadband connection between a mobile platform (e.g. a
high speed train) and a geostationnary satellite. This antenna platform must be able to
track the satellite over a large field of view in elevation (up to 70°, electronic scanning)
and for all azimutal angle (360°, mechanical scanning).
ON GOING
PROJECT
CONTACT
Ronan SAULEAU
IETR, UNIVERSITY OF RENNES 1
+33 (0)2 23 23 56 76
[email protected]
The project will focus on several areas: system and antenna array architecture, active
antenna design, integration of power amplifiers and phase shifters, development of the
full plateform including the mechanics and control/tracking algorithms, assessment of
this platform on a 3-axis motion simulator.
PARTNERS
Large companies:
THALES ALENIA SPACE
The main technolgical and scientific innovations are the following:
IX MOTION
◗ development of an innovative low-profile and low-cost active antenna with beam steering capabilities,
◗ development of low-weight and low-cost mechanical platform to accommodate for
the antenna onto the mobile,
◗ investigation of new antenna concepts for low-cost beam steering without phase shifters in Ku and Ka band,
◗ development of new integration techniques for distributed amplification inside large
antenna arrays.
SMEs:
INNOVATIVE BUSINESS
PARTNERS
TELECOM BRETAGNE
(LAB-STICC), UNIVERSITY
OF RENNES 1 (IETR)
PROJECT DATA
Coordinator:
UNIVERSITE RENNES 1
Co-label:
IMAGES & RÉSEAUX,
AEROSPACE VALLEY
Call:
ANR
Start date:
December 2010
Duration:
36 months
Demonstration of an innovative and very low-profile active antenna platform for IP on
the move applications.
Global budget (M2):
2.0
Funding (M2):
0.9
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& Communications
Améliorer la QUalitE DU service
à la personne et au Citadin
The population growth implies an increasing demand of home care services in
particular for the care of elderly. This sector is experienced strong growth but the low
profitability of this market slows the creation of new services. The aim of the AQUEDUC
project is to provide an infrastructure to improve and professionalize the work of the
different stakeholders by improving coordination, tracking, transmission. Stakeholders
are the beneficiary of the service, the family of the beneficiary, the carers and the
coordinators of the home care service agency.
The instrastructure in the AQUEDUC project will use the standard Internet communication,
mobile and Ambient Intelligence technologies.
CONTACT
Bruno JEAN-BART
TRIALOG
+33 (0)1 44 70 61 08
[email protected]
http://www.projet-aqueduc.eu
PARTNERS
SMEs:
ASSISTEO, KELCODE, TRIALOG
◗ The definition of decision-making
tools to improve the ecosystem of
services organisation. This tool
will be based on generic ontologies to standardise all data
related to the application domain.
TELECOM SUD PARIS
◗ A contribution to the interoperability of exchange data between back office applications
and mobile applications.
PROJECT DATA
Coordinator:
TRIALOG
◗ A contribution to the contextaware mechanism for the Ambient Assitive Living.
Call:
FEDER 3
◗ A way to provide more smartness
to the Home Environnement.
Start date:
September 2010
A survey has been carried out with care service coordinators. Based on results, an
evaluation of requirements has been performed in order to extract the functionnal
requirements of the complete system. Taking these requirements as inputs, the general
architecture is currently designed. The next steps will consist in implementing and
testing. Finally, a field operationnal test will be set up in order to assess the system
functionnalities.
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ON GOING
PROJECT
Duration:
24 months
Global budget (M2):
1.2
Funding (M2):
0.7
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ArchiTecture & TechnologIe
Innovantes pour Modules
AmplificaTeurs MUlti- standards /
Multi- banDes pour Systèmes
de TElécommunications 3G et 4G.
ATTITUDE 4G+
Recent telecommunication systems present a great variety of communication standards
such as GSM, UMTS, evolved UTRAN or Wi-MAX .These standards use a great variety
of complex modulation with different envelops of time varying signals and amplitude
with higher peak to average ratio.
New architecture will be developed based on the concept of software design radio
(SDR). Also, multi- standards base stations require developing wideband re-useable
BTS not available nowadays. This project has as objective to develop an innovative
architecture combining wideband, power and linearity.
This project will use GaN HEMT power technology to demonstrate wideband amplifier
from 1.9 to 3.8 GHz. Moreover, this project will propose a focus on the development of
an active supply unit to manage at the best the consumption of the RF power part.
ON GOING
PROJECT
CONTACT
Didier BAGLIERI
UMS
+33 (0)1 69 33 06 20
[email protected]
PARTNERS
Large companies:
III-V LAB, ALCATEL-LUCENT,
ALCATEL-THALES, UMS
This project has for main objectives to the end:
SMEs:
RFPA, SYSTREL
◗ to propose innovative wideband architecture with improved compromise linearity /
wideband;
◗ to define the better architecture keeping maximised the compromise linearity / effi-
XLIM
ciency by the way of advanced concept of active bias.
The main deliverable is a wideband demonstrator covering 1.8 - 3.8 GHz associted to
40W at 8 dB OBO - PAE > 35% and an EVM of 2.5%.
PROJECT DATA
Coordinator:
UMS
Call:
ANR
Start date:
December 2008
Duration:
36 months
Global budget (M2):
3
Funding (M2):
1.6
The project has started since 27 months. First phase was dedicated to the evalution of
different architectures for the linear amplifier and review of the associted specifications.
After a phase of investigations, the design of the mask set was completed and wafers lots
was processed. In parallel, different solution of packaging suitable to high power GaN
HEMT transistors were investigated. Evaluations of the assembly was also checked with
regards on the quality of the interface. Characterizations, modeling and simulations of
the transistors have identified the best conditions of bias and loads regarding the
objectives of linearity and efficiency. An enveloppe tracking architecture was developed
to get the right compromize in between efficiency and output power. A command law
was also optimized and specific transistor designs was developed to adress the switching
DC module. A first demonstrator was designed, integrating all the building blocks
designed in this project.
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BLINKSTER
Blinkster
Blinkster is a free and easy to use mobile application.
Blinkster uses pictures taken from a mobile device to search the internet.
Blinkster is composed of a client and a server platform. The client application uses
mobile's camera and GPS if available to build a search request for the Blinkster server. The
Server receives the request, analyses the picture and return to the client a list of structured
results to display.
COMPLETED
PROJECT
CONTACT
Philippe MARTINEAU
EUREVA
+33 (0)1 43 36 92 41
[email protected]
www.blinkster.eu
The global system is based on a combination of mobile, location, broadband and highspeed technologies. Using the flexibility of Cloud Computing architectures, it makes an
original use of state-of-the-art image recognition techniques and search heuristics applied to lightweight mobile and fixed applications for access to cultural information.
PARTNERS
SMEs:
EUREVA/MUSETREK
IRI/INSTITUT TÉLÉCOM
PROJECT DATA
Coordinator:
EUREVA
Co-label:
ADVANCITY, CAP DIGITAL
Call:
PROXIMA MOBILE
Start date:
November 2009
Duration:
12 months
Global budget (M2):
0.6
Centre Pompidou - with augmented reality - visits will be done with Blinkster application
in the coming months.
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Funding (M2):
0.3
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High speed networks
CAlcul Réparti sur Réseau Internet
Optique à CApacité Surmultipliée
CARRIOCAS project studied and deployed an ultra high bit rate optical network (up to 40?Gb/s per
channel) able to answer the industrial needs in terms of interactive numerical simulations on
remote supercomputers and of processing of huge volumes of distributed data. The investigations
encompassed optical components and systems optimised in performance and cost, network and
service architecture, protocols and algorithms enabling dynamic provisioning of services fitting
application requirements, and solutions for distributed storage of massive volumes of data and
for high resolution visualisation. The results have been validated on an experimental test bed
interconnecting 4 industrial and academic research centres in Paris region.
COMPLETED
PROJECT
CONTACT
Olivier AUDOUIN
ALCATEL LUCENT BELL LABS
FRANCE
+33 (0)1 30 77 26 30
Olivier.Audouin@Alcatel-Lucent
.com
CARRIOCAS achieved one of the first worldwide deployment of 40?Gb/s prototypes integrated
into a commercial transmission platform. Optical components and sub-systems (fibers, integrated receivers and laser-modulators) at the edge of the state of the art have been produced.
Advances brought by CARRIOCAS in bundled network/computing/storage service management have been acknowledged by the major international teams working in the domain.
CARRIOCAS enhanced the LUSTRE distributed file system to adapt it to servers remotely
located. The visualisation system which has been implemented, featuring a 24?Mpixels image
wall, is one of the highest resolutions ever achieved for this type of single-screen device.
PARTNERS
Large companies:
CGG VERITAS, DRAKA, EDF,
FRANCE TELECOM,
III-V LAB, HP, RENAULT
SMEs:
KYLIA, MARBEN PRODUCTS,
MEDIT, N2NSOFT, OXALYA
◗ Products:
Alcatel-Lucent 1626 LM optical transmission commercial platform integrates CARRIOCAS
40?Gb/s transceiver design. Draka has transferred into industrialisation the dispersion
compensation fibers. Alcatel-Thales III-V lab commercialises high frequency photodiodes
and pre-amplifiers. Oxalya commercialises VisuPortal, a portal managing visualisation
sessions and Medit commercialises MED-SuMo fragmentor, a tool for drug design.
◗ Services:
CARRIOCAS results pave the way towards high added value services for high performance
data and computing-intensive applications. The developed solutions will enable network
operators, data centers operators and service brokers/integrators to propose to end
application users optimised services associating the different required resource and connections, with tailored performance guarantees.
◗ Patents:
CARRIOCAS generated 3 Patents on algorithms for resource selection and scheduling.
◗ Publications:
More than 60?international publications and conferences. CARRIOCAS organized or participated to 7?workshops and got 4?invited papers.
The project demonstrated the performances of the deployed infrastructure in terms of
high resolution visualisation and of high bit rate remote access to data and computing for
different applications of industrial interest in sectors such as energy production, reservoir
prospection and drug design. The real scale experimentations performed a set of simulations and post-processing achieving transparency to the actual localisation of the data.
A public demonstration has been organised in September 2009.
CEA, CNRS, ECP, IEF,
INRIA, SUPELEC,
TELECOM PARISTECH,
TELECOM SUDPARIS, UVSQ
PROJECT DATA
Coordinator:
FRANCE
Call:
FUI1
Start date:
October 2006
Duration:
36 months
Global budget (M2):
24.8
◗ Job creation:
The project generated about 16 direct jobs.
Funding (M2):
10.4
The products generated by CARRIOCAS (40?Gb/s transmission systems and components,
VisuPortal… found their first commercial successes. In addition, INRIA is launching the
spin-off LY@Tiss which is technologically based on the CARRIOCAS outcomes on virtualisation and service management.
6POD, COHDEC40, COLLAVIZ,
CSDL, MINOS, PCS, TCHATER
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Context Based Digital Personality
ON GOING
PROJECT
Within the next years, as digital technologies become increasingly pervasive, we might
find ourselves living within intelligent interactive systems formed by hundreds of
sensors and actuators. Interacting with them will be complex, time-consuming and not
possible for certain groups of people: third-age persons, handicapped persons and so
on. To solve this problem the CBDP project suggests the creation of a context-based
digital personally (DP) as a proxy between digital surroundings and the final user. DPs
will benefit from mobile technologies for context-creation, maintenance and usage;
and from semantic technologies for formal decisions and verifications. Usage of DP
will simplify everyday interaction between users and digital environments and will
provide a framework for implementing value-added services for mobile operators.
CONTACT
Sébastien ROCHER
ATEGO
+33 (0)1 41 46 19 74
[email protected]
PARTNERS
◗ Ontology-based methodology specifying context-based Digital Personality creation
and use to gain benefits for mobile providers and final users
◗ Framework for Digital Personality creation, maintenance and decision taking. The
framework will allow seamless integration between hardware, applications and DPs.
◗ Framework extension for service providers - Allow third-party mobile service providers to benefit from the CBDP project results.
◗ Pilot applications in the domestic and automotive domains - the French consortium
will develop an Ambient Assisted Living application.
Large companies:
ACCIONA, INDRA, TELEVES,
TURKCELL
SMEs:
ATEGO, CARETTA,
CODE SYNTAX, MOBILERA,
TAZGANIA, TRIALOG
ESI/TECNALIA, SUPELEC,
UNIVERSITY OF DEUSTO
PROJECT DATA
Coordinator:
ATEGO
Call:
FEDER 1 + CELTIC
Start date:
April 2009
Duration:
36 months
Global budget (M2):
1.3
◗
◗
◗
◗
◗
The project has been labelized by CELTIC, Systematic and FEDER.
CELTIC founded consortiums (Spanish and Turkish) started on October 2008.
FEDER founded consortium (French) started in April 2009.
Requirements, scenarios and architecture have been defined.
CBDP framework implemented (CELTIC release) and enforced with success in 5 use cases.
◗ CELTIC Final Review accepted on March 24, 2011.
◗ CBDP Project continues within the French consortium (FEDER) until March 2012.
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Funding (M2):
0.6
EDONA, FLEX-AWARE,
LAMBDA, SCRIBO
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High speed networks
CHRONOS
Chromatic dispersion
compensators
This project aims at the development of broadband fiber Bragg grating based dispersion
compensator modules. This component is dedicated to be placed at long-haul terminals
to compensate the accumulation of residual dispersion along an optical link. The
realization of such component requires the implementation of high-precision equipment
to perform UV laser writing at nanometric scale over 100cm.The environmental conditions
implies to develop a package which guarantee the performance of the compensator over
80°C temperature range. The module will finally be tested on WDM system to evaluate
transmission impairements at very high data rates (10Gb/s and above).
CONTACT
PARTNERS
◗ A holographic writing technique to allow the manufacturing of long fiber Bragg grating, the design of which being software controlled.
◗ A passive temperature-compensated package
ON GOING
PROJECT
Philippe YVERNAULT
3S PHOTONICS
+33 (0)1 69 80 53 78
[email protected]
ALCATEL-LUCENT
SUBMARINE NETWORKS,
EGIDE
SMEs:
3S PHOTONICS
for coiled fiber Bragg grating.
◗ A hermitically sealed package with the particula-
CNRS NORD-PASDE-CALAIS/PHLAM,
TÉLÉCOM PARISTECH,
UNIVERSITÉ PARIS-SUD 11
rity of having to deal with a hermetic fiber feedthrough.
◗ Measurement methods and software adapted to
such a long optical fiber component.
◗ The specification of the module has been established.
◗ The UV-laser writing bench has been set-up for Fiber Bragg Grating manufacturing.
◗ An athermal prototype of the first FBG generation has successfully passed the environmental test.
◗
◗
◗
◗
System test of a dispersion compensator has been realized.
Mechanical sample of the hermitically sealed package has been realized.
A specialty fiber is being evaluated.
An innovative method has been implemented for Fiber Bragg Grating charaterization.
PROJECT DATA
Coordinator:
3S PHOTONICS
Call:
FUI8
Start date:
November 2009
Duration:
27 months
Global budget (M2):
3
Funding (M2):
1.48
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Gestion de la continuité
de service dans l'habitat
COHABIT aims at deploying an open service platform to improve the quality of life and
global wellness of disabled and elderly people. This project will give access to a panel
of services at home, within buildings and in the city. Targeted terminals are TVs at home
and mobile phones or telethesis in mobility.
As a research perspective, COHABIT's purpose is to explore context awareness aspects
such as service continuity: how to provide the same service in different places on
different terminals.
ON GOING
PROJECT
CONTACT
Stéphane RENOUARD
HANDCO
+33 (0)1 60 04 17 09
[email protected]
From an industrial point of view, COHABIT will be the starting point to a new generation
of Set Top Box (STB) for IPTV and an innovative telethesis.
The project will be deployed in the city of Evry (91).
PARTNERS
◗ User profile definition and management: from specific personal habits to confidential medical data, getting the correct information at the right moment without compromising privacy is a challenge.
SMEs:
HANDCO, STREAMVISION
TELECOM SUDPARIS
(HANDICOM)
◗ Human interfaces adaptation to the user specific disabilities: everyone has its particular needs and interacting with your environment is the first step away from dependency.
◗ Surrounding equipments interoperability: the environment is filled with devices you
need to control, however many of them are incompatible and do not communicate
using the same protocols.
◗ Large scale outdoor deployment: service continuity on such a complex environment
is quite unpredictable.
PROJECT DATA
Coordinator:
HANDCO
Call:
FEDER1
Start date:
April 2009
Duration:
36 months
Global budget (M2):
1.3
Funding (M2):
0.9
◗ Specifications of COHABIT user requirements and scenarii.
◗ Service Plateform specifications.
◗ Indoor deployment is on-going.
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High speed networks
COHDEQ40
COHerent DEtection
for QPSK 40Gb/s systems
Project COHDEQ 40 intends to demonstrate the potential of coherent detection, multilevel modulation format and the association with Digital Signal Processing for next
generation high density 40?Gb/s WDM systems optimized for transparency and
flexibility. Key integrated optoelectronics components and specific algorithms will be
developed and system evaluation performed
Coherent detection field has been
an extremely active topic during
the last 4 years. Demontrations
have almost unlimited amount of
chromatic dispersion, of PMD, and
detection of polarization multiplexed format have been demonstrated thanks to advance digital
signal processing algorithms.
Transmission at 40?Gb/s and
100?Gb/s have been demonstrated over transoceanic distance.
High
performance
optoelectronic components have
been realized and evaluated in
long distance transmissions.
COMPLETED
PROJECT
CONTACT
Gabriel CHARLET
FRANCE
+33 (0)1 30 77 27 08
gabriel.charlet@alcatel-lucent
.com
PARTNERS
Large companies:
ALCATEL-LUCENT,
ALCATEL-THALES III-V LAB
SMEs:
KYLIA, PHOTLINE
IRISA, TELECOM SUDPARIS,
XLIM
PROJECT DATA
MAJOR PROJECT
OUTCOMES
Coordinator:
ALCATEL-LUCENT
◗ Products:
• Kylia has developed its expertise for the integration of optical demodulator and
photodiode and commercialize now such kind of product as well as coherent mixer.
• Photline commercializes QPSK modulator developed within the project.
• Alcatel-Lucent is currently developing 40G and 100G product defined within the
project which will be available this year.
These products will be used for terrestrial as well as submarine applications.
◗ Patents: 1.
◗ Publications:
30 publications in international conferences and journals.
Call:
ANR
Start date:
January 2007
Duration:
36 months
Global budget (M2):
3.2
Funding (M2):
1.3
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CONNECT
Content-Oriented Networking:
a New Experience for Content Transfer.
CONNECT will contribute to the definition and evaluation of a new paradigm for the
future Internet: a content-centric networking (CCN) architecture where, rather than
interconnecting remote hosts like IP, the network directly manages the information
objects that users wish to exchange. The project will build on existing CCN proposals,
adopting as a starting point the concept promoted by the Palo Alto Research Center
(PARC). While the CCN paradigm has some clear advantages in terms of mobility
management, security, and in realizing bandwidth economies, the architecture is
incompletely defined and it remains to thoroughly evaluate the technical and economic
feasibility of the proposal. CONNECT will concentrate on the development of new
mechanisms and protocols aimed at enhancing CCN performance and on the
demonstration of their scalability.
In the PARC vision of CCN, content is divided into packet-size chunks identified by a
unique name with a particular hierarchical structure. The name and content can be
cryptographically encoded and signed, providing a range of security levels. Packets
carry names rather than addresses and this has a fundamental impact on the way the
network works. Content is supplied under receiver control, and chunks are freely replicated facilitating caching and bringing significant bandwidth economies. CONNECT
aims to complement the existing work on CCN with original proposals in the following
three technical areas.
◗ Traffic control must be completely
Giovanna CAROFIGLIO
ALCATEL LUCENT ,BELL LABS
+33 (0)1 30 77 32 73
giovanna.carofiglio
@alcatel-lucent.com
PARTNERS
Large companies:
FRANCE, FRANCE TELECOM
ORANGE LABS
CRI PARIS - ROCQUENCOURT /
EPI RAP, TP, TELECOM
PARISTECH, INRIA SOPHIA
ANTIPOLIS MEDITERRANEE
PLANETE
PROJECT DATA
Co-label:
SCS
◗ Naming, routing and forwarding
are addressed in the PARC proposal. However, choices are often
expedients to facilitate overlay implementation. It is necessary to
prove the name-based routing
and forwarding mechanisms are
scalable and to design algorithms suitable for full-scale implementation.
◗ In-network storage is a fundamental feature of CCN that relieves network bandwidth
utilization and reduces data transfer delays. We plan to investigate the consequent
bandwidth/storage tradeoff.
CONNECT will advance understanding of a new content-centric networking paradigm.
The project output will include:
a framework for resource management and traffic control in CCN,
a scalable and relisient routing and naming scheme,
the design of caching strategies and of mechanisms for network-wide coordination,
a report on CCN use cases, highlighting potential for security enhancements,
a simulation environment based on ns-3 and an emulation platform built over
GRID'5000.
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CONTACT
Coordinator:
FRANCE
rethought: TCP is no longer applicable and queue management will
require new, name-based criteria
to ensure fairness and to realize
service differentiation.
◗
◗
◗
◗
◗
ON GOING
PROJECT
Call:
ANR
Start date:
December 2010
Duration:
24 months
Global budget (M2):
3.8
Funding (M2):
1.1
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High speed networks /
CONnexion Radio sans fil Haut Débit
Modules InP pour transmission
optique à 40 & 100 Gb/s
CONRAHD-MINOS (project for the III/V activities) places the European III/V microelectronics
activities at the world state of the art.
Objectives of CONRAHD-MINOS are based on a new approaches of RF modules for
PTP/PMP Radio Applications and for Optical Applications.
◗ On CONRAHD part:
• Miniaturised Transmitting / Receiving modules;
• 1 W high power amplifier above 45 GHz;
• Transmitters-Receivers for 2,3,4G BTS: module blows up barriers for low noise
(0.6?dB balanced) & power transistors @2?GHz;
COMPLETED
PROJECT
CONTACT
Jean-Yves DADEN
THALES COM
+33 (0)1 41 30 48 86
jean-yves.daden
@fr.thalesgroup.com
◗ On MINOS part:
Design and fabrication of key 100?Gbit/s circuits:
• Driver amplifiers, photoreceiver preamplifiers;
• Multiplexing/demultiplexing;
• Development of an associated 100?Gbit/s packaging technology;
• Based on an InP-based heterojunction bipolar technology (0.7?µm process).
PARTNERS
Large companies:
ALU, GIE III-V LAB,
UMS
EGIDE, PICOGIGA
◗ Products:
SMEs:
OMMIC, SYSTREL
RF transmitters at 42 GHz deployed in Bratislava for triple-play application.
IEF, LPN, TELECOM
PARISTECH, UNIVERSITE
PARIS X, UNIVERSITE
PARIS SUD 11
◗ Patents:
More than 10 patents.
◗ Publications:
More than 50 publications.
PROJECT DATA
Coordinator:
Call:
FUI3
Start date:
April 2007
Duration:
24 months
Global budget (M2):
11.1
Funding (M2):
3.7
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Personalised Services & Communications / Wireless Connectivity
CultureClic, la culture
augmentée sur mobile
CultureClic, created and edited by i-Marginal for Proxima Mobile, is the most complete
culture-on-mobile application for France to check out geolocated works in high definition
— more than 800 from BnF and Rmn — geolocalized and available in augmented reality
mode; access to the 1,350 French museums, geolocated, with all practical information;
also what's on near you with more than 600 cultural events in France, taken from the
Culture Portal of the Ministère de la Culture et de la Communication. This amazing app,
available free of charge on iPhone, was uploaded 250,000 times.
COMPLETED
PROJECT
CONTACT
Sacha QUESTER-SÉMÉON
I-MARGINAL
+33 (0)1 40 46 83 50
[email protected]
In the future, CultureClic wants to be — within a wide offer, available on more screens,
leading smartphones — the main window for Culture, Tourism and leisure. Beginning
in France, then in Europe.
PARTNERS
SMEs:
I-MARGINAL, MEMO AGENCY
This application is still the most advanced of its kind, as regard Augmented Culture.
With augmented reality mode, kind of a journey into time on iPhone, you will see the
place where you are located as it was several centuries ago: the Louvre in the olden
days, the first photos of Notre Dame Cathedral, Pont Neuf or the Eiffel Tower under
construction – and many more treasures...
BIBLIOTHÈQUE NATIONALE
DE FRANCE, LA RÉUNION
DES MUSÉES NATIONAUX,
LE MINISTÈRE DE LA CULTURE
ET DE LA COMMUNICATION
◗ Publications:
220 Press quotations (cf. http://ow.ly/4KsVr).
◗ Patents:
CultureClic ® owned by i-Marginal.
This mobile plateform will be developed in the
next month with a lot of new functionalities, on all
types of screen, from mobile to tablets, up to PC's
(HTML5), and translated (english first and other
languages)…
◗ Job creation: 3
◗ Bisiness creation:
CultureClic as a brand, new services for culture
and tourism.
PROJECT DATA
Coordinator:
I-MARGINAL
Co-label:
CAP DIGITAL
Call:
PROXIMA MOBILE
Start date:
December 2009
Duration:
14 months
Global budget (M2):
1.0
Funding (M2):
0.5
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High speed networks
ECOFRAME
Eléments de COnvergence
pour les Futurs Réseaux d’Accès
et MEtropolitains hauts débit
The objective of this project is to propose a new metropolitan packet network based on an optical
packet switching technology offering a limited power consumption, an effective reduction of the
CAPEX and OPEX, and new perspectives in terms of capacity increase when compared to other
alternatives. The focus of the project will be then on the proposal, the design and the
implementation of an optical packet ring network, on the design and the realisation of an optical
packet switch for a mesh topology, on the study of a LDPC-based FEC, on the realisation of
integrated optical components, on physical modelling and simulation of the network, on the MAC
protocol design and on the performance analysis of the network concept proposed.
COMPLETED
PROJECT
CONTACT
Dominique CHIARONI
FRANCE
+33 (0)1 30 77 26 34
dominique.chiaroni
@alcatel-lucent.com
Proposal and realisation of a new optical time slotted ring metro network concept with new technoeconomic advantages with respect to to competitive solutions: Ethernet or R-OADM-based solutions. The project has demonstrated that this solution is less power consuming, less hardware
demanding and less expensive than the two technologies previously mentioned, for different capacity demands. The technical proposition, has also new functions required to lead to a high network
efficiency, when compared to similar apporaches studied by competitors, in the research area.
PARTNERS
Large companies:
ALCATEL-LUCENT,
ORANGE LABS
SMEs:
KLOE
◗ Products:
Realisation of an optical time slotted ring metro network test-bed demonstrating for the first
time, full bit rate transparency (from 10G to 100G) with small sensitivity or OSNR penalties (less
than 2?dB in a 40 channels configuration), high network efficiency enabling traffic engineering,
design of a packet FEC based on LDPC coding. A techno-economic analysis has demonstrated
the interest on the concept when compared to other competitive alternatives. Realisation of a
sub-equipped optical label switching architecture operating at 10 Gbit/s to address mesh topologies. Definition and study of different MAC protocols, and demonstration of a high network
efficiency. Physical simulations demonstrating the scalability of the network. Desing and first
evaluations of a new packet FEC based on LDPC algorithms.
◗ Patents: 1.
◗ Services:
Services supported by the ring network: circuit and packet connections, multi-CoS compliant,
Radio over Fiber technology on the top of the ring analysed. Finally a network model from the
access part to the metro part has been realised to estimate the end-to-end latency.
◗ Publications:
More than 50 publications, in National and International conferences, including international
scientifc review.
Two demonstrators: one optical packet ring network (ALU BL F) and one Optical Label Switch
(France Telecom
Orange Labs).
◗ Job creation:
15 creations of
jobs, and PhDs.
Not yet.
PRISM, TELECOM BRETAGNE,
TELECOM PARISTECH,
TELECOM SUDPARIS, XLIM
PROJECT DATA
Coordinator:
FRANCE
Call:
ANR
Start date:
February 2007
Duration:
36 months
Global budget (M2):
3.5
Funding (M2):
1.2
ANTARES
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e-Compagnon
COMPLETED
PROJECT
The major goal of this project was to define, design, develop and make demonstrators
of a new type of connectable mobile terminal. This new terminal being the support of
new services providing both utility and entertainment.
It has been prefered the aproach of a plurality of optimised terminals aiming at making
worldwide firsts rather than one universal but less efficient version.
Modularity and reuse of the results of the collaborative research have been encouraged
for making possible the implementation of the results in a wide range of attractive
products for the worldwide consumer market.
Already some industrial fallback of the results of the project (Archos).
◗ A product line of “Internet tablets” that are a worldwide first implementations of
Android system on terminals having a large screen with a high resolution …
◗ Another product line called “PC tablet” implementing Microsoft Windows 7 on a new
low power intel processor. It is the finest true PC to date and the only one implementing a zero fan solution for cooling. It has been presented as a reference at CES 2010
by Steve Balmer, Microsoft's CEO…
CONTACT
Jérôme GILBERT
ARCHOS
+33 (0)1 74 85 02 11
[email protected]
PARTNERS
Large companies:
SNCF
ARCHOS
SMEs:
DEVERYWARE, OPENWIDE
INRIA, TELECOM SUDPARIS
PROJECT DATA
Coordinator:
ARCHOS
Call:
FUI5
Start date:
April 2008
Duration:
30 months
Global budget (M2):
6.2
◗ Products:
Funding (M2):
2.5
two product ranges.
◗ Patents: 1.
◗ Publications:
to be done in the next 6 months.
to be done in the next 6 months.
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High speed networks
Home network eco-design
ON GOING
PROJECT
The project deals with the decrease of the electrical power and emitted electromagnetic
radiation of residential terminals. Econhome will decrease by 70 % the electrical power
needed to fuel Internet Access Devices, set-top-box, PLC plug, Wi-Fi extenders and so
on. Econhome is bringing a global approach, targetting hardware components,
equipments and the complete LAN system.
CONTACT
Eric MASERA
SAGEMCOM BROADBAND
+33 (0)1 57 61 31 17
[email protected]
◗
◗
◗
◗
◗
◗
◗
Low power platforms (set top box, Internet Gateway, PLC plugs, WiFi extender).
low EM level platforms (set top box, Internet Gateway, PLC plugs, WiFi extender).
Low power IC (SoC, ASIC) for PLC, WiFi, set-top-box.
Software for the modular management of the features of the platforms.
Smart active/idle modes and rapid wake up of the platforms.
Network middleware for the signalling and management of the states of the nodes.
Power aware routing between LAN nodes.
Use cases scenarios and metrics of the project are defined. Work on platforms and
network middleware has started.
PARTNERS
Large companies:
FRANCE TELECOM,
SAGEMCOM, ST-ERICSSON,
ST-MICROELECTRONICS
Intermediate size enterprises
SPIDCOM
SMEs:
COMSIS, DOCEA POWER,
POLARIUS (UTREMA)
CEA LETI, CEA LIST,
EPSCP/UCPN INRIA
PROJECT DATA
Coordinator:
SAGEMCOM
Co-label:
MINALOGIC
Call:
FUI 11
Start date:
Janvier 2011
Duration:
30 months
Global budget (M2):
10.9
Funding (M2):
3.9
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ECOSCELLS
Efficient COoperating Small Cells
ON GOING
PROJECT
The need for bandwidth and the incitation to reduce power consumption leads to the
reduction of cells’ size in cellular networks. This reduction implies problems for cells
organization and deployment, mainly interference. The project aims at developing the
algorithms and solutions required to allow Small Cells Network (SCN) deployment. The
algorithms will be based on most recent development in distributed algorithms, game
theory, reinforcement learning. Also, the architecture and the algorithms for the
backhauling network will be proposed. Finally, the developed solutions in the project
will be validated thanks to simulations and will be implemented on the top of an
industrial development platform with the objective to deliver a prototype of SCN base
station. The project targets to validate the industrial value of the SCN concept.
The project aims to provide a complete solution for SCN, from relevant technological
locks analysis to an effective realistic experimental situation:
Afef FEKI
FRANCE
+33 (0)1 30 77 15 48
[email protected]
PARTNERS
Large companies:
ALCATEL-LUCENT, ORANGE
LABS
SMEs:
3ROAMS, SEQUANS
◗ Optimization of cell site deployment, configuration & tuning, energy usage.
INRIA, LAAS-CNRS, SUPELEC,
UNIVERSITE D'AVIGNON
◗ Assigning Resources for Service Continuity and
Coverage.
◗ Set up of an innovative cells backhaul.
Theoretical studies will develop required algorithms and study these algorithms’ performance by simulation. Thereafter the identified solution will be implemented in a prototype of Small Cell base station. This prototype will be deployed on a restricted size
area (few cells) in order to demonstrate the value and performance of the whole concept in realistic conditions.
The outcome of ECOSCells will deliver the means to exploit the density of small cells:
innovative concepts and algorithms on one hand, simulation results and equipments
prototype demonstrating their validity on the other hand. The ambition of ECOScells is
to address the SCN concept as a whole, from theory to implementation, allowing a fast
market acceptance.
The project is organized in 6 tasks:
◗ Coordination, communication and valorization: T1.
◗ Analysis, theoretical studies and design: T2, T3 and T4.
◗ Prototyping and validation: T5 and T6.
◗ Project launched on November 1st, 2009.
◗ The project is at mid-term and has provided all planned deliverables. The deployment scenarios and the global parameters (radio models, system parameters, and
backhauling) have been defined and will be used to evaluate proposed solutions for
self-configuration in SCN. These will be mainly based on learning algorithms and
optimization mechanisms for resource allocation, for which a complete survey has
been produced.
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CONTACT
PROJECT DATA
Coordinator:
ALCATEL-LUCENT,
BELL LABS FRANCE
Call:
ANR
Start date:
November 2009
Duration:
36 months
Global budget (M2):
4.2
Funding (M2):
1.3
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ELHAN
E-Band pour Liaisons Haut-débit Numériques
(E-Band for High bit rate digital links)
The ELHaN project main target is to enable the capability to get low cost high bit rate
(> 1Gbits/s), high spectrum efficiency (> 7bits/s/Hz), short range (> 4km) point to point
radio links on the newly worldwide standardized E-Band (71-76/81-86?GHz) frequency
band by developing all the basic components and technologies needed for this purpose.
By achieving this first target we aim to achieve a most important target by becoming the
real enabler for the Broadband Mobile Wireless deployments in urban and sub-urban
areas which mainly suffer today from the backhauling bottleneck (from capacity and
total cost of Ownership point of view) to reach an acceptable level of customer experience
by giving 2 Mbits/s minimum data bit rate to anybody, anywhere on those areas.
CONTACT
PARTNERS
The main technological innovation that will raise with ELHaN will be:
◗ The definition and design of full integrated efficient mm-wave transceiver including
innovative packaging which can be also used for other application in similar frequency
bands (or at least the technologies developed for).
◗ The definition and design of a high bit rate MODEM using all full digital technologies
to relax the constraint in RF part, and which will permit to take all advantage of the
packet transmission.
◗ Definition and design of a new kind of high efficiency low cost antenna and diplexer.
All those technologies will be design in order to fit an innovative system definition based
on the new needs of backhaul generated by the deployment of the data broadband wireless access (HSDPA, HSDPA+, LTE, Wimax) which will particularly care of the power
consumption and discretion.
ON GOING
PROJECT
Edouard PEREIRA
ALCATEL-LUCENT
+33 (0)6 12 74 61 48
edouard.pereira@alcatel-lucent
.com
Large companies:
ALCATEL-LUCENT, THALES,
UMS
EGIDE, ELVIA, RFS
SMEs:
NOVAPACK
SUPELEC, UPOND/GEA
PROJECT DATA
◗ Status:
The initial system and component specification phase is ended and the basic component
design is on going. First run will be available for testing in June 2010.
◗ Main outcomes:
• System definition and components specifications;
• Basic MMIC components including low cost and security like packaging;
• High bit rate high efficiency full digital dedicated MODEM;
• Low cost diplexer and high efficiency antenna;
• New Low cost PCB concept;
• Concept link demonstrator.
Coordinator:
ALCATEL-LUCENT
Call:
FUI7
Start date:
June 2009
Duration:
30 months
Global budget (M2):
11.2
Funding (M2):
3.1
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High speed networks
EPOD
Enhanced PON using OFDM modulation format
COMPLETED
PROJECT
The EPOD project aims at contributing to develop new systems to meet the requirements
of future access networks in terms of extended reach and bit rate. It will contribute to the
FSAN objectives in the definition of new technological solutions in order to overcome the
hurdle of bandwidth botleneck when high bit rate services will be massively in demand.
The impairments of optical fibre at high bit rates, such as chromatic dispersion, will be
overcome through novel and robust techniques. The EPOD project will address the
migration scenarios linked to the evolution of the access network which would be based
on GPON systems that are available today. The infrastructure deployed could be left
unchanged while just changing or superposing the terminal equipment.
CONTACT
PARTNERS
The EPOD project has enabled the development of analogue lasers and receivers for
OFDM transmission in a TDM-PON architecture. A test bed has been set up to enable
the validation of OFDM modulation for the
access network. Direct modulation and direct detection which are cost-effective for
the access network have been experimentally demonstrated over an optical fiber
link. The modules had highly linear characteristics which enabled them to achieve
analogue modulation and detection. It has
been shown that 40 Gbit/s was possible
using OFDM modulation over a 17 GHz
bandwidth laser.
Naveena GENAY
ORANGE LABS
+33 (0)2 96 05 11 44
naveena.genay
@orange-ftgroup.com
Large companies:
ORANGE LABS
SMEs:
3S PHOTONICS
UNIVERSITE DE LIMOGES (XLIM),
CURIE (L2E)
PROJECT DATA
Coordinator:
ORANGE LABS
◗ Publications:
Co-label:
IMAGES ET RESEAUX
• "Up to 40 Gbit/s optically amplified AMOOFDM for Next Generation PON networks",
L. Anet Neto et Al, OFC 2011, Los Angeles, USA.
• "On the interest of chirped lasers for AMOOFDM transmissions in long distance
PON networks", L. Anet Neto et al, OFC 2011, Los Angeles, USA.
• "High bit rate burst mode optical OFDM for Next Generation Passive Optical Networks", L. Anet Neto et al, ECOC 2010, Torino, Italy.
• "Very High bit rate transmission for NG-PON using AMOOFDM direct modulation of
linear laser", T. N. Duong et al, OFC 2010, Los Angeles, USA.
• "Multi-band power allocation in AMOOFDM high data rate NG-PON downlink transmission direct modulation of linear laser", A. Gharba et al, OFC 2010, Los Angeles, USA.
The new modules have enabled to contribute to the discussions at FSAN on the NG-PON2
on the potentiality of using OFDM for increased bit rate at 10 Gbit/s and beyond (40Gbit/s).
At Orange Labs, work on OFDM has benefited from the EPOD project: several PhD theses have been proposed for in-depth study of applications of OFDM for PON.
There have been 2 emitter modules developed by 3S Photonics and evaluated within
the framework of the EPOD project (1915 LMA and 1925 LMA corresponding to different packages (Butterfly and TOSA).
◗ Job creation:
5CDDs and 1 CDI (sum from all partners)
Lasers and receivers developed within the framework of EPOD project opened the
market for 3S Photonics for analogue applications
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Call:
ANR
Start date:
February 2008
Duration:
30 months
Global budget (M2):
1.2
Funding (M2):
0.7
TRILOB
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& Communications
Etude & expérimentation
des outils et technologies IMS
compatibles avec les usages
The IMS (IP Multimedia Subsystem), last evolution in telecommunication core networks,
represents a real opportunity for telecommunication actors facing the competition of
Internet actors in a market moving towards the supremacy of IP services.
However some blocking points have been identified:
◗ Standards on interoperability mechanisms and services composition are still
incomplete.
COMPLETED
PROJECT
CONTACT
Yann GASTE
ALCATEL-LUCENT
+33 (0)1 30 77 27 62
[email protected]
◗ There are no existing methods for formal checking and validation of IMS services.
◗ There are currently too few existing IMS services, moreover not leveraging on the
possibility to easily create innovative services, to make IMS viable for end-users.
The ExoTICus project aims at overcoming those limitations to help the adoption of IMS.
The aim of the project was to overcome the weaknesses of standardization on integration and services composition processes, initiate a momentum for innovative and
reusable IMS services creation; speed up the development process of IMS services and
allow end-user experimentation to validate innovative IMS services
To make it real, the project has deployed in Nozay (91) a complete IMS infrastructure to
develop and trial innovative converging IMS services with real users. In addition, Adaptation of modeling tools (Real Time developer studio from Pragmadev) and the IMS
architecture have been performed to speed-up the development cycle of innovative
IMS services.
PARTNERS
Large companies:
ALCATEL-LUCENT
ARCHOS SA
SMEs:
CITYPASSENGER,
DEVERYWARE, LEGOS,
PRAGMADEV, TRANSATEL
INRIA, TELECOM PARISTECH,
TELECOM SUDPARIS
PROJECT DATA
◗ Products:
Implementation of the JSR 289 Service Broker solution in Alcatel-Lucent 5400 IMS
Application Server, and implementation of the IF verification method in Pragmadev's
Real Time Developper Studio.
◗ Services:
Legos and one of his customers are ready to deploy and commercialize an extended
reachability service based thanks to the project results.
◗ Publications:
2 book chapters (A. Gouya and N. Crespi, “Chapter 14: Service Orchestration in IMS,”
in IP Multimedia Subsystem (IMS) Handbook, CRC Press, 2008 and Bertin E, Crespi
N., chapter 1: "IMS Service, Models and Concepts" in "IMS Handbook", CRC Press,
ISBN 9781420064599), 10 accepted contributions to 3GPP normalization, and
5 accepted papers.
Coordinator:
ALCATEL-LUCENT
Call:
FUI4
Start date:
November 2007
Duration:
24 months
Global budget (M2):
6.8
Funding (M2):
3
7 concepts were experimented in real condition by hundreds of users recruited via the
Transatel Exoticus website.
INRIA "Ambientic" demo won the « 11ème concours national d'aide à la création
d'entreprises de technologies innovantes OSÉO - Catégorie "en émergence" ».
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& Communications
F-Lab: Federating computing resources
ON GOING
PROJECT
The F-Lab project works towards enabling an open, general-purpose and sustainable
large-scale shared experimental facility that fosters the emergence of the Future
Internet. F-Lab builds on a leading prototype for such a facility: the OneLab federation
of testbeds, enhancing the OneLab federation model with the addition of SensLAB’s
unique sensor network and LTE-based cellular systems, and developing tools to
conduct experiments on these enriched facilities.
F-Lab presents an unique opportunity for the French network research community to
play a stronger role in the design of federation systems; for the SensLAB testbed to
obtain international visibility and use; and for the pioneering of testbeds based on LTE
technology.
CONTACT
Timur FRIEDMAN
UPMC
+33 (0)1 44 27 71 06
[email protected]
PARTNERS
◗ One key objective of F-Lab is to further develop an understanding of what it means
for autonomous organizations operating heterogeneous testbeds to federate their
computation, storage and network resources, including defining terminology, establishing universal design principles, and identifying candidate federation strategies.
◗ On the operational side, F-Lab will enhance OneLab with the contribution of the unique
sensor network testbeds from SensLAB,
and LTE based cellular systems. In doing
so, F-Lab continues the expansion of OneLab’s capabilities through federation with
an established set of heterogeneous testbeds with high international visibility and
value for users, developing the fede-ration
concept in the process, and playing a
major role in the federation of national and
international testbeds. F-Lab will also develop tools to conduct end-to-end
experiments using the OneLab facility
enriched with SensLAB and LTE.
Large companies:
FRANCE (A-LBLF), THALES
COMMUNICATIONS S.A. (THC)
CURIE / LIP6 (UPMC),
INSTITUT NATIONAL DE
RECHERCHE EN
INFORMATIQUE ET
AUTOMATISME (INRIA)
PROJECT DATA
Coordinator:
UPMC
Co-label:
SCS
Call:
ANR
The main outcomes of the F-Lab project will be the enhancement of the OneLab
federation of testbeds with the addition of the SensLAB sensor networks and LTE-based
cellular systems. In addition we plan to develop tools to conduct end-to-end
experiments in the improved experimental facility offered by OneLab. Detailed
documentation related to all developments will also be produced.
Start date:
November 2010
Duration:
36 months
Global budget (M2):
4.1
Funding (M2):
1.3
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& Communications
GENGHIS KHAN
AlInN/Gan Evaluation
for low Noise - hiGH power,
and Integrated circuitS
in and above KA baNd
The development of high power sources above Ka band (26-40 GHz) is a key technology
for the next generation of broadband mobile and security services in Europe. The aim
of this project is to provide a breakthrough in the field of semi-conductor compounds
through the development of AlInN/GaN wide bandgap technology for high frequency
applications. The mains objectives of the project are :
◗ Evaluate and develop AlInN/GaN technology for high frequency operations from Ka-
ON GOING
PROJECT
CONTACT
Stéphane PIOTROWICZ
III-V LAB
+33 (0)1 30 77 69 29
[email protected]
Band to Q-Band (40 GHz).
◗ Demonstrate the capabilities of AlInN/GaN technology to provide high output power
at high frequency by developing power amplifier functions with output power in the
range of 8 to 10 W with associated efficiency of 35%.
PARTNERS
In the recent years, many efforts were devoted to the research and development of the
AlGaN/GaN HEMT technology and applications covering frequency range from 1 to 20
GHz have been targeted as first objective. A second step is necessary to investigate higher frequencies pushing the limits of wide bandgap devices in the millimeter wave
range. No stabilized wideband
gap technologies exist today
around the world. Few publications pointing out the great potentialities of such technology in
Ka band and up to W-band (110
GHz). The main objective of this
project is to demonstrate high
power GaN HEMT technology
operating up to Q-Band. This project includes highly challenging
aspects:
◗ Material aspect: One of the outputs is the validation of the
AlInN/GaN material as a candidate for high frequency applications.
Large companies:
III-V LAB,
UNITED MONOLITHIC
SEMICONDUCTOR
Intermediate size entreprises:
EGIDE
INSTITUT LAVOISIER DE
VERSAILLES, LAAS CNRS
UNIVERSITE DE TOULOUSE
PROJECT DATA
Coordinator:
III-V LAB
Co-label:
AEROSPACE VALLEY
◗ Technology aspect: Definition of
a process flow is expected as
key output, targeting millimeter-wave. This technological definition would include the
epitaxial structure, process modules and transistors architecture.
◗ Transistor aspect: Design of a family of transistors operating potentially up 1W at
40 GHz. Transistors for robust low noise amplifiers will be also studied.
◗ Circuit aspect: Circuit layouts demonstrating low noise amplifier and high power amplifiers (8-10W) at 30 GHz.
Call:
ANR
Start date:
January 2011
Duration:
36 months
Global budget (M2):
3.9
Funding (M2):
1.3
The project has been started since the beginning of the year. First steps consist in
defining the specifications targeted in the projet in terms of output power, efficiency,
noise performances for industrial end users. These specifications will be adressed
through the design of optimized transistor sizes (gate length, gate width, number of
fingers, etc…). A specific mask set for such high frequency applications is designed and
will be processed.
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GReen Wireless Communicating Objects
ON GOING
PROJECT
The power consumption of embedded systems is a major concern for self-powered
devices based on energy harvesting. Today, to reduce it, technologies exist at several
levels. In digital architectures, low-power modes are implemented (DVFS, DPM). In the
radio transceiver, blocks are optimized with respect to energy according to sensitivity
and interference robustness constraints. Converters are designed for optimal tradeoff between performance and energy. Various communication protocols are available to
optimize the energy per transmitted bit ratio. GRECO proposes a global design approach
relying on the behaviour modelling of the different components. The aim is the design
of an autonomous communicating object. To be operational, its power consumption
must be well balanced considering the harvested energy available from its environment.
Many techniques tend to reduce power consumption of embedded systems. Unfortunately,
they are generally developed without deep analysis of the impact they have on each other. We believe that it is possible to save even more energy
by using a more global design approach. GRECO
proposes a global approach for designing a communicating object that is completely autonomous
in energy. The study relies on modelling, in terms
of performance and energy, the different blocks
that are required for the object design (RF blocks,
converters, modem, digital architecture, application, power generator, battery). This approach
implies a large model diversity that needs to be
addressed with great care. Choice of modelling
and simulation tools and techniques is therefore
a key aspect for the project as well as the selection of low power components (RF, analog and
digital) and low-power protocols. For systems
powered with an energy harvester, it is the
energy available at a given time which is critical
because this energy may vary depending on the
location of the sensor. A major component is the
power manager which has to handle efficiently
the energy needed for ensuring functional behaviour with respect to the energy harvested.
CONTACT
Florian BROEKAERT
+33 (0)1 46 13 32 18
florian.broekaert
@fr.thalesgroup.com
PARTNERS
Large companies:
SMEs:
INSIGHT-SIP
CEA-LETI, CEA-LIST, IM2NP,
IRISA, LEAT
PROJECT DATA
Coordinator:
THALES
Co-label:
SCS
Call:
ANR
Start date:
October 2010
Duration:
40 months
Global budget (M2):
3.5
The main project outcomes will be, for a given power source and a target application, to
evaluate the available and necessary power allocation for different parts of the
communicating object. The innovative solution proposed should allow to reach significant
power gain allowing to envision the design of communicating objects completely autonomous
in energy. Another key outcome will lie in the design of the power manager that will handle
the energy trade-offs.
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1.3
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IP Network Monitoring for Quality
of Service Intelligent Support
The focus of IPNQSIS is to develop continuous monitoring systems to study the
behaviour of Quality of Experience (QoE) through the analysis of network and service
performance and their impact on end customers. The outcomes of the project will
provide crucial knowledge for designing future multimedia networks and systems for
intelligent network control to cope with QoE and Service Level Agreement (SLA) in a
network-centric approach, with a lower cost compared to traditional solutions operating
in border devices. This approach for network operation will be scalable and robust.
Besides, it is intended to fit better to demanding applications such as IPTV, based on
multicast services, and convergent transport architectures to support them, for
instance, Digital Subscriber Line technology (xDSL), 3G Mobile and Fiber To the
premises (FTTx).
ON GOING
PROJECT
CONTACT
Nuria GOMEZ
INDRA
+33 (0)9 14 44 74 60
[email protected]
PARTNERS
IPNQSIS proposal is based on previous projects of traffic modelling, traffic monitoring
and QoE measurement and optimization. The main goals are to go beyond the state
of the art in these fields, both in accuracy, reaction times, and application to control. A
significant contribution will come from the combined application of these improvements
towards new control algorithms which take into account traffic models and actual measurements as well as the correlation of those with the users´subjective perception of
quality. This combination of different monitoring systems and traffic modelling within an
intelligent exploitation system to manage QoE can be presented as a relevant contribution to Future Internet challenges for network governance. Control mechanisms such as
access control, traffic shaping,
packet marking for optimal routing and traffic differentiation and
access network selection may be
implemented and tested, with
QoE as the ultimate measure of
performance.Based on the traffic
model, developed network probes
and routing repositories implementation, an intelligent management system will be
designed to exploit traffic monitoring and BGP data versus QoE
settings that may be considered
as the basis of a refined network
management architecture.
Large companies:
ALCATEL-LUCENT, ERICSSON,
EXFO, INDRA, PPO
SMEs:
ALKIT, DYCEC, GIGLE,
GOODMILL SYSTEMS,
IP-LABEL, NAUDIT,
SOFTTELECOM, VIERLING
CREO, INDRA, INSTITUT
TELECOM, LUND UNIVERSITY,
UNIVERSITY PARIS-EST
CRETEIL, VTT
PROJECT DATA
Coordinator:
INDRA SISTEMAS (ESP)
Call:
CELTIC
Start date:
October 2010
Duration:
27 months
Global budget (M2):
8.5
In summary, the major outcomes of IPNQSIS will be:
Funding (M2):
5.8
◗ the analysis of the relation between QoS and QoE parameters and how they can be
used to supervise the network so that strategies can be developed to maintain the
needed quality;
◗ the introduction of improved traffic measurement software and hardware probes that
operate at different levels, ranging from the network core to the end-user applications;
◗ the creation of routing repositories that can benefit from simulations and data traffic.
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KIVI
Kiosk Virtuel
ON GOING
PROJECT
Ariane Systems, world leader in self check-in/out solutions for the hospitality industry,
in partnership with Lemon Way, leader in the development of mobile applications and
the LIP6 laboratory, target to offer the first mobile and on-line software platform that
will allow hotel guests to self check-in check-out when and where they want.
The platform offers some significant innovations and firsts. It will offer mobile payment
capabilities, virtual RFI/NFC room key card to be send on mobile phones…
CONTACT
Michel LAVANDIER
ARIANE SYSTEMS
+33 (0)1 48 10 61 03
mlavandier
@ariane-systems.com
◗ Mobile payment.
◗ Utilize RFID/NFC technologies
PARTNERS
SMEs:
ARIANE SYSTEMS,
HOTEL PERFORMANCE,
LEMON WAY
to send virtual room key card to
a guest directly on his mobile
phone, skip the reception desk
and go direct open its room
door.
LIP6
◗ Ability to cut a check-in/out
process in multiple phases,
allowing a guest to use different terminals (web, mobile or
kiosk) to complete one full
transaction.
PROJECT DATA
Release of a web oriented software platform compatible with all major hotel software
systems and all major mobile phones.
Coordinator:
ARIANE SYSTEMS
Call:
FEDER2
Start date:
October 2010
Duration:
24 months
Global budget (M2):
1.2
Funding (M2):
0.6
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MCUBE
Multimedia for Machine to Machine
ON GOING
PROJECT
The goal of the MCUBE project is to develop a MachineTo Machine (M2M) technology to
capture, process and analyze multimedia data stream from sensors’ networks, with
low consumption and GPRS/EDGE communication bandwidth constraints.
This project covers the entire monitoring solution, from the data acquisition to its availability
thru a web service. In particular, data processing and analysis are distributed on the M2M
gateway and the SI platform to accommodate the bandwidth and processing power
constraints. It leverages the M2M services provided by the cellular network operators.
CONTACT
Philippe FAUGERAS
WEBDYN
+33 (0)1 39 04 29 40
[email protected]
The targeted markets are the video monitoring of industrial buildings or installations
and the growth monitoring of agricultural fields.
PARTNERS
This project’s innovations are:
◗ The addition of multimedia capabilities to a M2M gateway in a way that is compatible
with the bandwidth provided by a GPRS/3G connection and without compromising its
power consumption.
SMEs:
CAP2020, SOLARNET,
WEBDYN
ISEP
◗ The creation of an information system platform with new distributed algorithms for
audio and video applications.
◗ The development of new types of services for the industrial and agricultural markets.
PROJECT DATA
Coordinator:
WEBDYN
Call:
FEDER 3
Start date:
May 2010
The project started 11 months ago. The first phase was focused on the specification of
the M2M gateway and the associated information system platform. The first test
campaigns will be done in the next months for the solar and agricultural applications.
Duration:
36 months
Global budget (M2):
1.8
Funding (M2):
0.7
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Multimedia services to know more
COMPLETED
PROJECT
Mediatic carries out new services to interactively enrich in real time multimedia
contents and to combine broadcast contents with VoD and Audio on Demand services.
Mediatic will create and propose a selection of relevant additional contents taking into
account the choices and preferences of users to enrich the broadcasted contents.
The project has developed real-time indexation of multimedia contents and related
ontology, real-time association between contents and services and personalized addedvalue services. It will create new opportunities for existing actors, content providers
and service providers and will make emerge new actors.
CONTACT
Gérard DELEGUE
FRANCE
+33 (0)1 30 77 27 13
gerard.delegue
@alcatel-lucent.com
The project has developed software tools to analyzt metadata from the Electronic Program
Guide and from transcripts of the speech.
The textual analysis system allows to build a relevant mapping between streamed contents
and documents.
An MPEG-7 based search engine was developed. It also provides visualization capabilities,
navigation and interaction features.
New algorithms were developed
to build a personalization engine
managing user profiles and recommendations of multimedia content.
A new technology using an adaptive notification engine has been
implemented. This technology can
warn users of interesting events
on their preferred medium (SMS,
set top box, ...).
PARTNERS
Large companies:
RADIO FRANCE, SFR
SMEs:
EXPWAY, LAB RADIO,
LA BANQUE AUDIOVISUELLE
CEA, SUPELEC,
TELECOM SUDPARIS
PROJECT DATA
Coordinator:
FRANCE
The project has developed 3 demonstrators based on innovative scenarios.
◗ First one proposes a new service (mobile and setup box) for TV viewers. It suggests at
anytime additional customized contents based on the implicit and explicit profile of the
user and on tags associated to the content. The objective of the personalization engine
managing profile and recommendations is to integrate these features into a product for
personalized mobile portals. Ten publications in international conferences have been
written during the project. For Expway, the benefits are threefold: marketing analysis
of new services made possible by the enrichment of metadata of the EPG, validation of
their server BCAST 3G and evolution of their middleware offer toward an “application”
offer (propose a user interface more dynamic and graphically rich).
◗ Second demonstrator, developed by Telecom Sud Paris, is a search engine based on
MPEG-7 and a platform for indexing audio-visual contents with visualization, navigation
and interaction capabilities.
◗ Third demonstrator “Provisioning tool”, developed by Bull and Alcatel-Lucent Bell Labs
France, is a scheduler performing following tasks: content provider identification, check
validity of provisioning, establishing contacts with the content provider and the content
management and notification of new content to generate associated meta-data.
◗ Publications:
9 publications.
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Co-label:
CAP DIGITAL
Call:
FUI4
Start date:
November 2007
Duration:
26 months
Global budget (M2):
7.2
Funding (M2):
2.9
MEDIATIC
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Mobile Networks Evolution
for Individual Communications
Experience
MEVICO is a Celtic research project dealing with network aspects of the 3GPP LTEmobile broadband network and its evolution in the mid-term. A large increase in
bandwidth on mobile networks is expected with the development of service offerings
and the emergence of powerful new devices. The project is to follow an end-to-end
system approach on evolution of the Evolved Packet Core network. The target is to
innovate and develop new network concepts for meeting the future requirements of:
the evolving LTE radio technologies; the evolution of mobile service usage; a strong
increase in the number of mobile users and devices; the optimization of the network for
capacity and cost, as well as ways to provide end-user services with improved quality
of experience.
The goal of MEVICO is to contribute to the technical drive and leadership of the Evolved
Packet Core (EPC) 3GPP network, and thus support the European industry to maintain
and extend its strong technical and market position in the mobile networks market. The
results can be used as contributions for the further development of the 3GPP standard
on EPC in Rel11/13. The scope of the project is mobile network evolution in the mid-term.
The technical research areas of the MEVICO project will cover relevant topics in the
areas of network architecture, mobility & routing, packet transport, traffic management, network engineering and techno-economic aspects. The project will include both
conceptual research and demo/trial system implementations. Attention will be paid to
the further optimization of the network for capacity and cost, as well as ways to provide
services with the more individual user experience.
The different concepts will be evaluated in the test environments, which will be provided by the consortium partners. The experiences achieved from setting up those environments and from running the evaluation tasks, will be available for the further
development of the Pan European Lab.
ON GOING
PROJECT
CONTACT
Edgardo MONTES DE OCA
MONTIMAGE
+33 (0)1 53 80 35 77
edgardo.montesdeoca
@montimage.com
PARTNERS
Large companies:
ALCATEL-LUCENT BELL LABS,
AVEA ILETISIM HIZMETLERI AS,
DEUTSCHE TELEKOM AG,
ERICSSON AB, ERICSSON
TELEKOMUNIKASYON A.S., EXFO
NETHAWK, FRANCE TELECOM,
NOKIA SIEMENS NETWORKS,
RAD DATA COMMUNICATIONS
LTD., TELEFÓNICA O2 GERMANY,
TÜRRK TELEKOMÜNIKASYON AS
SMEs:
ARTELYS, MONTIMAGE
AALTO UNIVERSITY, BUDAPEST
UNIVERSITY TECHNOLOGY &
ECONOMICS, CEA-LIST, CENTER
OF FINLAND, CHEMNITZ
UNIVERSITY OF TECHNOLOGY,
TECHNISCHE UNIVERSITÄT
BERLIN, UNIVERSITY OF OULU,
UNIVERSITY OF VIENNA, VTT
TECHNICAL RESEARCH
PROJECT DATA
Coordinator:
NOKIA
Call:
CELTIC
Start date:
May 2010
Duration:
33 months
Global budget (M2):
14.6
The project was started 12 months ago and during this time the project has defined in
detail the requirements for the futur mobile networks, the challenges that need to be
addressed, the concequence on the global EPC/LTE architecture and the validation plan
that will be carried out by the project. Detailed studies have been carried out on the future evolution of network usage, trafic scenarios and requirements.
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High speed networks
MICROS
Multilevel modulation format optical
Integrated Coherent Receiver on CMOS
MICROS will demonstrate an integrated Polarization Division Multiplexing Quadrature
Phase Shift Keying (PDM-QPSK) receiver compatible with 40 and 100 Gb/s bit rate. All
the passive and active photonic functions will be integrated on the same chip, using
CMOS compatible fabrication processes. The CMOS process compatibility should
ensure a seamless subsequent integration of the optical receiver with the ADC and DSP
electronic circuits.
MICROS will directly address backbone or metro-core networks applications at 40 Gb/s
and 100 Gb/s.
CONTACT
PARTNERS
Laurent FULBERT
CEA-LETI
+33 (0)4 38 78 38 45
[email protected]
Large companies:
ALCATEL-LUCENT, III-V LAB
The activities within MICROS are manifold:
◗ Development of high performance generic building blocks: local oscillator source by
III-V/Si heterogeneous integration, fast detectors, passive circuits and packaging
◗ Demonstrating the power of this integration scheme by realizing an integrated
100 Gbit/s PDM-QPSK coherent receiver
◗ Pave the way of further integration with digital signal processing circuits by developing integration strategies that are fully compatible with CMOS fabrication processes.
Not started yet.
CEA, INSTITUT DES
NANOTECHNOLOGIES
DE LYON, UNIVERSITE
PARIS-SUD 11
PROJECT DATA
Coordinator:
CEA
Call:
ANR
Start date:
April 2010
Duration:
36 months
Global budget (M2):
3.1
Funding (M2):
1.2
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PROJECT
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Mobile Secure Accessible
Rich media Finances
The project is meant to conceive a demonstrator simulating a secured mobile banking
portal in real conditions. This portal will make available several services of banking
information and transactions and will be evaluated over a panel of users. In order to
reach an advanced ergonomy while being compatible with an heterogeneous park of
terminals (platforms, OS, screens, navigation) and networks (2.5G, 3G, WLAN), the
portal will integrate Rich Media technologies.
ON GOING
PROJECT
CONTACT
Daniela LOZANOV
STREAMEZZO
+33 (0)1 53 63 28 47
[email protected]
The project also aims improving significantly the security, at both user authentication
level and electronic transactions signature level (consulting, transfer…), by embedded
secured applications directly on the smart card.
Attention will be particularly paid on economical studies and and value-stream.
Business models will eventually be proposed.
◗ Improve the security by
embedding secured mobile
application on the smart
card and by using adapted
authentication servers.
PARTNERS
Large companies:
SMEs:
STREAMEZZO
LUTIN, TELECOM PARISTECH
◗ Improve the ergonomy compared to existing services
and by-pass the fragmentation of the mobile terminals.
◗ Create a new ecosystem for
new usages with actors
looking for the right positionning. New emerging
business models.
◗
◗
◗
◗
◗
◗
PROJECT DATA
Coordinator:
STREAMEZZO
Call:
ANR
Start date:
January 2010
Duration:
30 months
Global budget (M2):
2.4
Project launched on January 1st, 2010.
Study of needs, Functional Specifications: on-going.
Funding (M2):
1.1
Testing protocol elaboration: on-going.
Start of developments planned on November 1st, 2010.
Demonstrator delivery for users testing planned on March 1st, 2012.
FC2
Business model proposals delivery planned on July 1st, 2012.
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High speed networks /
NEPTUNE Platform
PLATFORM
NEPTUNE aims to implement a mobile broadband experimental platform for
technological trails, uses and service tests. This network will be based on LTE, the
future 4G Technology. The main objective of the project is to allow the applications'
developers to test their services providing them a set of different users and
consequently to help them to develop their business model and to find their position in
the telecommunication market. The proposed offered by NEPTUNE will offer technical,
functional and operational validation aspects. A legal entity will be created to make
long-lasting investments and to stimulate the mobile services innovation process.
DESCRIPTION OF THE PLATFORM EQUIPMENTS
AND SERVICES
The main technological innovation is the use of the new telecommunication technology: the LTE. For Long Term Evolution, this standard will soon be used to replace the
standard mobile broadband network, using UMTS technology. With LTE, we can redefine all the uses of the mobile services, because of the very high speed data rate that
permits LTE. From the landa user, watching a streaming film on his mobile phone, to
the professionnal uses, for exemple in the healthcare, allowing distance consultations.
The services allowed by the LTE are so consequent that we can't imagine all the uses
for the moment. On the NEPTUNE platform, we will test devices using LTE technology,
but also his services, for example the "cloud computing", the "mobile virtualization", the
"augmented reality", the "live broadcasting", or the "mobile HD video streaming".
CONTACT
Méhand GUIDDIR
ALTRAN
+33 (0)1 48 88 73 86
[email protected]
PARTNERS
Large companies:
ALCATEL-LUCENT, ALTRAN,
FRANCE TELECOM, TDF
SMEs:
CITYPASSENGER, IP LABEL,
OPTICSVALLEY, SAPHIR,
UCOPIA
HEC, POLYTECHNIQUE,
SUPELEC, UNIVERSITE
PARIS-SUD 11
PROJECT DATA
Coordinator:
ALTRAN
Call:
FUI6
Start time:
February 2009
DATE OF AVAILABILITY
Duration:
36 months
◗ Frequency allocation by ARCEP in January 2010.
◗ Roll out in Autumn 2010.
Global budget (M2):
4.6
Funding (M2):
2.2
E-COMPAGNON, EXOTICUS,
MEDIATIC,POSEIDON, RAF,
URC
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High speed networks
OCELOT
Développement d'un Oscilloscope de
Constellations à Base d'Echantillonnage
Linéaire tout Optique
The OCELOT project aims at developing the optical linear sampling of very high rate
(› 100 Gbps) optical signals with advanced modulation formats, especially in phase
(x PSK), in order to extract amplitude and phase information and display it in a
constellation diagram. The main purpose of OCELOT is the transfer of this technology
from a research industrial laboratory to a SME by realizing the prototype of a future
product, which is planned to be launched on the very competitive constellation
oscilloscope market.
The two major obstacles identified in the project refer on one hand to the pulse laser
source used for linear sampling, on the other hand to the acquisition and processing
of the sampled and digitized signals, with display refreshment rate (› 1Hz) matching
end users requirements about real time measurement and analysis.
The laser source must provide short (‹ 1ps), stable pulses, with relatively low average
power (› -3dBm) but also low pulse rate (40MHz-300MHz), in order to fit the economical requirement of simple implementation and reduced cost. This source, containing an
amplifying quantum dot chip, will be developed in a specific task, with close collaboration of several partners of OCELOT project.
The digital acquisition board (CAN) will be designed with digital signal processing integrated circuits (DSP, FPGA) enabling the end display of the constellation diagram. A
robust and fast algorithm must be designed, developed and implemented in FPGA, and
transferred to APEX with the CAN for its integration in the prototype.
ON GOING
PROJECT
CONTACT
Antoine DA SILVA
APEX TECHNOLOGIES
+33 (0)1 69 63 26 30
[email protected]
PARTNERS
Large companies:
III-V LAB
SMEs:
APEX TECHNOLOGIES
ENSSAT-FOTON, ENSSATIRISA, TELECOM PARISTECH
PROJECT DATA
Coordinator:
APEX TECHNOLOGIES
Co-label:
IMAGES ET RÉSEAUX
Call:
ANR
Start date:
January 2011
Duration:
36 months
Global budget (M2):
NOT DISCLOSED
Funding (M2):
NOT DISCLOSED
◗ Most areas of the project are still in the study however some preliminary results have been
obtained. Those results concern the development of the laser which is the core of the
optical sampling. Several lasers have already been produced and characterized.
◗ In a near futur, acquisition boards and algorithms for the signal processing will be developed by differents partners of the project.
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PilOte de Services et d’ExpérImentation
Du haut débit sans fil de Nouvelle génération
POSEIDON speeds up the development of new broadband wireless technologies by
experimental research. It aims to develop the tools and concepts required to face to the
increasing complexity of next generation networks that offers wireless Internet services.
On field experiment is setup Université d'Orsay campus where about 100 users will
validate the prototypes of product and services that will make use of the broadband
wireless networks : WiMAX and LTE. POSEIDON objective is provide a unique large scale
experimental facility to foster innovation of System@tic partners, creating new business
opportunities in various domains like video delivery, base station market, M2M
products.
CONTACT
PROGRESS BEYOND THE STATE OF
THE ART
PARTNERS
POSEIDON provided a unique "real scale" testbed for
broadband wireless (OFDM + IP) experimentations and
measurements. The installed network and the panel of
dozen of users allow to experiment advanced concepts
and to validate these with in real cases. The measurements and the feedbacks gained from the experimentation helped to develop and validate adaptation algorithms
for network operation and video delivery. Solutions for fast
prototyping platform have been evaluated.
COMPLETED
PROJECT
Olivier MARCÉ
FRANCE
+33 (0)1 30 77 27 42
[email protected]
Large companies:
ALCATEL-LUCENT,
ORANGE LABS, THALES
SMEs:
BE FREE NETWORKS,
E-BLINK, SEQUANS, WEBDYN
CEA LETI, SUPELEC, TMPS,
PROJECT DATA
◗ Publications:
• « Efficient Self-optimization of Neighbour Cell Lists in Macrocellular Networks »,
VM Nguyen, H Claussen, PIMRC 2010, Istanbul.
• "Outage Performance of Cooperative Small Cell Systems under Rician Fading
Channels", J. Hoydis, A. Kammou, J. Najim and M. Debbah, submitted to 2011
IEEE International Conference on Communications ICC, Kyoto, Japan.
• Tien Anh Le, Hang Nguyen, and Hongguang Zhang, "Multi-variable cost function
for application layer multicast routing," in IEEE Globecom 2010 - Communications
Software, Services and Multimedia Applications Symposium (GC10 - CSSMA),
Miami, Florida, USA, 6-10 December 2010.
• B. Gadat, "Embedding protection inside H.264/AVC and SVC streams”, Eurasip
JWCN 2010.
• «Perception-based Application Layer Multicast for scalable video conference», ICC
2011 Communications QoS, Reliability and Modeling Symposium (ICC'11 CQRM),
Kyoto, Japan («IMS-based distributed multimedia conferencing service for LTE»,
ICC 2011 Communications QoS, Reliability and Modeling Symposium (ICC'11
CQRM), Kyoto, Japan.
◗ Patents:
Neighbor List Clustering, 09305189.4; Adaptive scanning time allocation to reduce
the scanning impact and enhance the handover, 08291265.0; Jitter buffer model for
video tool analyser (Video Inspector), patent number pending.
Wireless antenna link for WiMAX Base Station; Video Quality Analysis Tool; WiMAX
chipset and firmware evolution.
◗ Job creation:
Increase of about 20 full time position over all partners in relation with Poseidon.
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Coordinator:
Call:
FUI5
Start date:
June 2008
Duration:
32 months
Global budget (M2):
5.6
Funding (M2):
2.5
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PUMA
Produit Ulra haut débit
sur bande Millimétrique Allouée
ON GOING
PROJECT
Target aims at the realisation of a high capacity last mile network to access buildings
and backhaul base stations or hot spots for security (surveilance). PUMA realises on
Paris a Gigabit backhaul network of some km? coverage using the main building
accessed as relay node. The product under design is a very compact PmP
communication node working on 40.5-43.5 GHz regulated frequencies. It comprises
transceiver GaAs modules, flat patch antennas, very high speed modems with routing,
switching and agregation with appropriate protocols. This permits to broadcast and
collect a huge quantity of multimedia and Internet services.
CONTACT
PARTNERS
◗ Main innovation 1 pertains to radios and antennas as far as technology. Small transceivers of 10cmx10cm have been designed with MMICs including several functions and
mounted on surface. Patch antennas directive (for terminals) and sectors (for relay
nodes) have been designed and are integrated on radios with a special guide transition.
◗ Second innovation pertains to networking, the nodes are integrating high speed modems, these modems are multiplexed by a circuit designed to multiplex 4 modems with a
pipe line capability. The node comprises a small router that is capable to span the tree of
the organisation of the network so as to route the data through the nodes to the terminals.
François MAGNE
BLUWAN
+33 (0)1 30 15 96 41
[email protected]
Large companies:
THALES
SMEs:
BLUWAN, LUCEOR,
VECTRAWAVE, WIZEO
PRIMS, TELECOM PARIS TECH
PROJECT DATA
Coordinator:
BLUWAN
Call:
FUI2
Start date:
June 2009
Duration:
36 months
Global budget (M2):
3.9
Funding (M2):
1.9
RAF
The radios and antennas are being produced, to be integrated in boxes with the modem
(for the terminal) , for the nodes an autodoor rack comprises the multiplexer, the
modem stack and the router. Ten of these equipement will then be deployed on the
GgaCom Paris platform.
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QoS garanties pour réseaux WiFi
ON GOING
PROJECT
QoS-WiFi consists in the design and implementation of an improved WiFi protocol fully
interoperable with current 802.11n standards. The aim of the project is to allow reliable
transmission of TV, voice, Hi-Fi and telephone communications over 802.11 networks
with "cable" like performance. It will be possible to introduce the new WiFi cards in an
existing 802.11 network without degrading the legacy equipment and transparently
communicating with them. QoS-WiFi will guarantee a better throughput for streaming
applications, reduced access times and network latency (both average and variance),
reduced collision and it improves the goodput when many stations are using the
resources. At the end of the project an evaluation of a SoC (System on Chip integrated
circuit) will be performed in view of designing a low price QoS-WiFi card.
◗ The legacy 802.11 or WiFi technology was designed for data applications, offering “Best Effort”
quality of service but by no
means guaranteed performances. The recent 802.11n
standard has focused on improving transmission speeds. WiFi
now offers the necessary
throughput to carry streaming
applications but still no performance guarantees. This is insufficient for certain services like TV
over home ADSL (or cable or
FTTH) accesses and other services. The 802.11e standard has
addressed this problem by allowing voice and video services to
be much more aggressive in their access to the radio medium. But as a consequence
this can lead instability and to the breakdown of the WiFi network.
◗ This project addresses these problems by improving the WiFi MAC access protocol
while guaranteeing interoperability with existing WiFi equipment. QoS-WiFi is based
on a patented tournament mechanism which guarantees low collision rates, bounded access times and a distributed architecture. It presents several innovations compared to previous solutions: minimal possible collisions, possibility for strict priorities,
round robin scheduling, avoiding hidden terminal problems. More generally, the
techno-logy allows for distributed coordination of competing stations over a WLAN.
The development of a WiFi prototype (based on a COMSIS platform), compatible with
legacy 802.11 equipment, and allowing transporting TV, voice and data streams with
guaranteed performance in a home or professional environment. The project will also
provide the feasibility study of an integrated circuit (IC) allowing characterizing the
performance and cost of an industrial production.
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CONTACT
Patrick BROWN
FRANCE TELECOM orange
+33 (0)4 92 94 52 55
patrick.brown
@orange-ftgroup.com
PARTNERS
Large companies:
SMEs:
COMSIS
LSS/SUPELEC,
TELECOM SUDPARIS,
PROJECT DATA
Coordinator:
Call:
FUI10
Start date:
October 2010
Duration:
24 months
Global budget (M2):
1.8
Funding (M2):
0.8
URC
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& Communications
Quatrième Unité Autonome
Terminale du Réseau, Ouverte
The QUATRO 2 project aims at providing an end-to-end system comprising specialized
servers, adequate applications and advanced terminals in order to provide innovative
servives with unprecedented diversity and richness both for the consumer and the
enterprise markets. The Quatro servers aim to process multiple sources of information
expressed in various standards in order to provide terminal-independent applications
in SaaS mode. The Quatro terminals implement in affordable (100-150 €) portable
electronic devices the convergence between multimedia consumption, domestic
wireless phone and home control, three domains that are currently isolated.
During the projet, several proofs of concept will be performed in eEducation,
ePublishing and in the vertical professional application of dynamic customer flow
management.
ON GOING
PROJECT
CONTACT
Raoul MALLART
ARCHOS
+33 (0)6 84 58 32 64
[email protected]
PARTNERS
Large companies:
NEOTILUS, ORANGE VALLEE
The main technological issues addressed by the project are the following:
Intermediate size entreprises:
ARCHOS
◗ Emergence of a novel family of portable Internet terminals at a very affordable price
point (starting below 100 € retail price) while providing the power, flexibility and openness of state of the art tablets
combined to extended connectivity in the home. In particular
the integration of DECT CAT-iq
wireless phone standard in Android based Internet devices.
SMEs:
ESII
INSTITUT TELECOM
◗ Emergence of a novel service
infrastructure insuring terminal-agnostic access to a broad
range of applications and data
sources. In particular the aggregation of content from heterogeneous digital content
platforms while providing an
homogeneous approach to the terminal in terms of management of updates, rights,
usage statistics, monetization, data persitence and synchronization.
◗ Deployment of an eEducation and ePublishing cloud infrastructure in a multi-campus higher eduation ecosystem.
◗ A first generation of Quatro terminals is well underway with first prototypes running
in the lab.
◗ The server infrastructure is being specified. The modeling of some key components
PROJECT DATA
Coordinator:
ARCHOS
Call:
FUI10
Start date:
October 2010
Duration:
24 months
Global budget (M2):
6.6
Funding (M2):
2.2
eCompagnon
such as download connector, back-office and statistics agregation egine has started.
◗ Architecture of the ePublishing infrastructure is designed and first applications are
emerging.
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Réseaux Ad hoc à Forte efficacité
(Ad hoc networks with high QoS efficiency)
This project aimed at the development of networks of circumstance, for data, voice and
video services with high QoS efficiency, in fast deployment, based on low-cost radio stations.
The current applications, thanks to this ad hoc network type, concern mainly Public Safety
forces (Police, Fire brigades, Emergency medical service) in urban and rural areas but also
civil ones for internet access through relay nodes.
The demonstrations were based on 802.16 WiMAX technology, the first one experimenting
a nomadic infrastructure-based ad hoc network, the second showing a Mesh network in
"white" zones and the final one illustrating a pure ad hoc mobile network in a Public Safety
application.
COMPLETED
PROJECT
CONTACT
Serge HETHUIN
+33 (0)1 46 13 24 44
[email protected]
PARTNERS
◗ New PHYSICAL LAYER based on cooperative relaying (virtual MIMO).
◗ New DISTRIBUTED ACCESS PROTOCOL
with high QoS efficiency, including distributed synchronization and dynamic routing.
Large companies:
ALCATEL-LUCENT, EADS DS,
SAGEM, THALES
MARTEC (EOLANE NOW)
SMEs:
BLUWAN
◗ Nomadic infrastructure-based ad hoc network, for unattended event, based on
WiMAX COTS equipment.
IEF (DIGITEO LABS), INRIA, LIX,
LRI, LSS, SUPÉLEC
◗ Ad hoc backhauling network for "white"
zones, based on COTS equipment.
◗ Pure mobile ad hoc network, composed of
WiMAX pico stations, for Public Safety
forces and based on new ad hoc networking algorithm, called RAFNET, in charge
of the management of the dynamic treebased architecture, developed and tested
successfully.
PROJECT DATA
Coordinator:
Call:
FUI4
Start date:
November 2007
◗ Publications:
• Composite Mobility Model for Ad Hoc Networks in Disaster Areas, POMPORTES
and all.
• Joint Resource Optimization and Relay Selection in Cooperative Cellular Networks
with Imperfect Channel Knowledge, AHMAD and all.
• "Beyond Mobile Ad-hoc Networks towards cooperative networks" EADS.
• "Coexistence of radio networks using Aloha", BLASZCZYSZYN and all.
◗ Patents:
Relayage synchronisé: "STATION RELAIS A DOUBLE RADIO", HETHUIN and all, PCT
n°PCT/EP2009/053311.
Different modules under commercialization: Network analysis tool (Eolane), RAFNET
(THALES), …
◗ Job creation: 3
EADS PMR extension.
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Duration:
36 months
Global budget (M2):
7.7
Funding (M2):
2.9
NimbleNet, SEANET
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Réseau de Communication haut-débit
pour les Services de Sécurité
The project ReCoSS aims at defining and validating experimentally a new generation of
PMR system (Private Mobile Radio). The civil security services (fire service, police, ...)
currently use these PMR systems that are limited in data rate and allow to transmit
voice applications. The system that will be defined in the ReCoSS project will increase
the capacity of these PMR networks in order to transmit larger data streams like video.
The project also aims at limiting the spectral use associated to these new services by
integrating techniques based on a frequency opportunistic access.
ON GOING
PROJECT
CONTACT
Bertrand MARIN
+33 (0)1 46 13 28 36
bertrand.mar1
@fr.thalesgroup.com
The demonstrator that will be developed and validated through experiments is composed of a communication system and a sensors network. The major technological innovations associated to this demonstration are the following:
◗ High data rate system. The communication system proposed is based on LTE architecture and will reach high data rate (several Mbps).
◗ Frequency opportunistic access. The sensors network will measure the radio-electrical activity and will indicate the transmitting frequencies to the communication
system. This solution allows to manage efficiently the frequencies use and therefore
to optimize the use of the radio spectrum.
PARTNERS
Large companies:
EADS CASSIDIAN, TDF,
SMEs:
ETSA, LS TELCOM, SILICOM
TELECOM-PARISTECH, XLIM
◗ Optimized performance of the sensor network. The involved innovations concern the
deployment of the associated sensor network (covering a maximum area with a minimum number of sensors), the sensing algorithms implemented (compromise between accuracy of information and complexity of implementation) and the interface
between the communication system and the sensors network (optimization of the architecture, synthesis of data)
◗ Spectrum control capability: The network of sensors could eventually evolve into a
system of spectrum control.
PROJECT DATA
Coordinator:
Co-label:
ELOPSYS
Call:
FUI10
Start date:
January 2011
Duration:
30 months
Global budget (M2):
6,0
Funding (M2):
1,9
URC
The project started in January 2011. The first step concerns the system specification
and the definition of interfaces between the communication system and the sensors
network.
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Seamless and adaptive services
over multiple access networks
The SEAMLESS project aims to provide technical solutions to ensure mobility and
seamless services over heterogeneous radio access technologies.
It considers the context and the environment of the French public transportation company,
the RATP, including cellular networks such as GPRS and UMTS as well as non-cellular
wireless networks such as WiFi inside and around stations and on board busses.
Several challenges are addressed at decisional, architectural and protocol levels.
Among them:
COMPLETED
PROJECT
CONTACT
Badii JOUABER
TELECOM SUDPARIS
+33 (0)1 60 76 42 08
[email protected]
◗ The diversity of environments and wireless technologies, with what follows in terms
of vertical handover and multi-homing.
◗ The heterogeneity of terminals.
◗ Context information management in order to make the right decisions for mobility,
multi-homing and service adaptation.
◗ Decision-making processes based on complex, rich and incomplete information.
The scope of the SEAMLESS project considers the general problem of mobility management with what's next in terms of service adaptation and context management.
On mobility management, the project has considered both terminals mobility and network mobility. After analyzing the state of the art in these areas, two important issues were considered
as SEMALESS priorities:
◗ Smart management of mo-
Large companies:
CEA
SMEs:
DEGETEL/NEOTILUS
TELECOM SUDPARIS
PROJECT DATA
Coordinator:
TELECOM SUDPARIS
bility and multihoming
◗ Protocols for vertical mobi-
Call:
ANR
lity and multihoming
◗ Service adapatation based
Start date:
April 2008
on the context.
Duration:
30 months
MAJOR PROJECT
OUTCOMES
Global budget (M2):
3.4
◗ Publications:
11 publications of which:
• Alexandru Petrescu and
Alexis Olivereau, « Mobile VPN and V2V NEMO for Public Transportation », Lille,
The 9th International Conference on ITS Telecommunications, ITST 2009 Lille, October 20-22, 2009.
• BELAID Djamel, MUKHTAR Hamid, and OZANNE Alain, "Service composition based
on functional and non-functional descriptions in SCA", The 1st International Workshop on Advanced Techniques for Web Services (AT4WS 2009), in conjunction with
the 11th International Conference on Enterprise Information, Systems (ICEIS 2009),
6-7 May 2009, Milan, Italy, 2009.
• BELAID Djamel, MUKHTAR Hamid, OZANNE Alain, and TATA Samir, "Dynamic component selection for SCA applications", The 9th IFIP Conference on e-Business,
e-Services, and e-Society (I3E 2009), 23-25 September, Nancy, France, IFIP, 23-25
September 2009, France, 2009.
• MUKHTAR Hamid, BELAID Djamel, and BERNARD Guy, "Session continuity and
splitting of multimedia applications using qualitative user preferences", ACM Mobility Conference 2009: The International Conference on Mobile Technology, Applications and Systems, ACM, 02-04 September 2009, Nice, France, 2009.
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PARTNERS
Funding (M2):
1.4
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Smart Enhanced Ad hoc NETworks
ON GOING
PROJECT
SEANET project consists in developing ad hoc communication networks dedicated for
high data rate ship-to-ship exchanges.
The network has to withstand the mobility of the nodes by using mechanisms of dynamic connectivity reconfiguration.
Range and data rate needs (30 NM, 10Mb/s) require the use of relaying functions and
smart directional antennas. Moreover, spectrum efficiency of this type of network is
improved through the introduction of spatial frequency « re-use ».
CONTACT
Serge HETHUIN
+33 (0)1 46 13 24 44
[email protected]
The SEANET network is based on :
◗
◗
◗
◗
◗
A dynamic tree-based architecture,
Multi-hops relaying,
PARTNERS
Smart antennas such as FESA type,
Large companies:
Advanced ressources allocation algorithms,
UHF and Ku frequency bands.
SMEs:
DETI, ESTAR, SATIMO
◗ Study and development of a Ku band transceiver based on a frequency converter fol-
ENIB, TECHNOPOLE
BRETAGNE, TELECOM BREST,
lowing a 5.5 GHz WiMAX radio.
◗ Study and development of a planar FESA antenna in Ku band, enabling azimuth scanning and dealing with electronic elevation compensation.
◗ Study and development of a low
PROJECT DATA
cost mechanical stabilizer (anti
roll device) for handling the different antennas in vertical position.
Coordinator:
Co-label:
PÔLE MER BRETAGNE
◗ Ad hoc networking based on
dynamic tree-based architecture, spatial frequency reuse,
use and control of FESA smart
antennas.
Call:
FUI9
Start date:
January 2011
Duration:
36 months
◗ Field-tests experiments in UHF and Ku frequency bands, generation of an over the
Global budget (M2):
4.3
sea propagation model,
◗ FESA smart antenna in Ku band and the related control algorithms embedded in the
radios,
◗ Spatial frequency reuse techniques,
◗ Demonstration platforms in UHF and Ku bands enabling significant campaigns of ex-
Funding (M2):
2
RAF
periments for characterization of the connectivity stability.
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& Communications
SENSCITY
SensCity : Citywide M2M
service ecosystem
The project aims at providing an open network and middleware platform for the creation
of urban services, e.g., public lighting automation, utility - water, gas, electricity metering, parking management, pollution assessment. The targeted platforms referred
to as Information and Communication Technology Platform for Machine-to-Machine ICT for M2M. The project also integrates Sustainable Development concerns by focusing
on ecoconception of infrastructural elements and evaluating environmental impact of
the deployed services. Currently M2M urban services are provided in a vertical fashion.
Each service provider deploys their own infrastructure for the network and the
application. This results in sub-optimal cost and greatly increases deployment and
maintenance complexity for the public authorities. The project will provide a horizontal
platform with standard and open interfaces to connect to the sensor networks - RF and
PLC - on the south side and to applications on the north side. The ICT for M2M platform
will provide service mediation, brokerage, end to end security and end to end QoS.
ON GOING
PROJECT
CONTACT
Vincent GIMENO
+33 (0)4 76 76 41 26
vincent.gimeno
@orange-ftgroup.com
PARTNERS
Large companies:
FRANCE TELECOM ORANGE,
HEWLETT-PACKARD
Definition of a standard communication infrastucture for a network of sensors and activators shared between a variety of M2M applications for the urban enviroment. The
challenge is to be able to share a common network infrastructure of routers and sinks
(gateways) that is scalable, optimized in terms of the network elements required for deployment and at the same satisy differing QoS requirements of the various applications.
In addition standarisation and security are very important for these applications.
SMEs:
ALCION ENVIRONNEMENT,
AZIMUT MONITORING,
BH TECHNOLOGIES, CORONIS,
DOTVISION, E-GEE, NUMTECH,
WEBDYN
GRENOBLE INP G-SCOP,
GRENOBLE INP G2ELAB,
GRENOBLE INP LIG, MIND
◗ Requirements for the ICT M2M platform.
◗ Specification of communication interfaces.
◗ Specification of generic M2M application enablers.
PROJECT DATA
Coordinator:
Co-label:
MINALOGIC
Call:
FUI7
Start date:
May 2009
Duration:
28 months
Global budget (M2):
6.1
Funding (M2):
2.8
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SESAME
conSistent EStimation
and lArge random MatricEs
Sesame Project is founded by the "Agence Nationale de la Recherche" within its Mass
Data and Knowledges Program. It is a four years project (2008-2012). Goals of the
project are to promote and develop mathematical technics issued from the random
matrix theory to the study of the mobile communications systems. A particular attention
will be done to the problems of statistical estimation where we will have as many
parameters to estimate as possible observations. We often have a such configuration
within digital communications.
Academic articles, forthcoming academic conference.
ON GOING
PROJECT
CONTACT
Jamal NAJIM
TELECOM PARISTECH
+33 (0)1 45 81 78 51
[email protected]
PARTNERS
EURECOM, SUPELEC,
TELECOM PARISTECH,
UNIVERSITE DE MARNE
LA VALLEE
PROJECT DATA
Coordinator:
TELECOM PARISTECH
Call:
ANR
Start date:
January 2008
Duration:
48 months
Global budget (M2):
1.1
Funding (M2):
0.5
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& Communications
Solimobile
ON GOING
PROJECT
Solimobile is a complex of innovative and free services conceived and realized for the
population at risk.
The application Solimobile aims at facilitating administrative procedures and at giving
an access to services provided by charities to vulnerable people wherever they are.
Solimobile delivers, in unified and coherent way, services classified in following
categories:
CONTACT
Gabriel KEPEKLIAN
ATOS ORIGIN
+33 (0)1 70 92 46 84
[email protected]
◗ Social network for interpersonal solidarity, "club";
◗ "Associations to subscribers", portal for diffusion of services;
◗ "Support", portal for requests.
The application is developed for the use on numerous mobile platforms, here given in
the order of importance: J2ME, Symbian, Windows Mobile, Android, iPhone OS.
Large companies:
ATOS ORIGIN
SMEs:
IEURO, STREAMEZZO
The research focuses on data mining. We will explore and evaluate
the data collected on the use of
SOLIMOBILE services with algorithms for a better understanding
of the user profiles to provide
structured data and more targeted
services. These algorithms will be
implemented in practical methods
involving hybrid classification algorithms, automated learning, association rules, prediction systems,
complex data mining, etc. and taking into account the data evolution. Indeed, most algorithms for
data mining are based on conventional static models and do not
take into account the possible evolution of these models. We propose to dynamically change the model implemented in
the framework of SOLIMOBILE to reflect the actual behavior of visitors and adapt the
content of the platform itself.
Association:
ACSC
Research also focuses on service storyboarding to make them easy to use, functionally
rich and available on most of all mobile phones. We can not focus on the only most
recent mobile because they are also more expensive.
◗
◗
◗
◗
Establishment of new social work practices with the use of IT.
Research on personalization carried out by ISEP.
Enrichment of the Streamezzo platform with new components.
Extension of applicability of the platform iDoo to mobile phones.
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PARTNERS
ISEP
PROJECT DATA
Coordinator:
ATOS ORIGIN
Co-label:
CAP DIGITAL
Call:
PROXIMA MOBILE
Start date:
February 2010
Duration:
18 months
Global budget (M2):
0.8
Funding (M2):
0.4
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High speed network
TRADE / Slightly-multimodal
TRAnsmission and DEtection
This project focuses on long-haul optical telecommunication systems, covering
distances between 100 km to more than 6 000 km. In this context the system vendors
should face the ever-growing demand for higher capacity. The optical fiber capacity
limit approaches and there is the need for technological break-ups that would not force
operators and service providers to simply employ more fiber pairs. In this project the
use of more than one “mode” of the optical field is seen as a potential solution for a
multi-path propagation in fiber, where each path could potentially carry the actual total
capacity of a single-mode fiber. New theoretical models, simulation software,
algorithms, components and system design rules are needed for this disruptive
approach to high capacity optical transport systems.
CONTACT
PARTNERS
ON GOING
PROJECT
Massimiliano SALSI
FRANCE
+33 (0)1 30 77 22 25
massimiliano.salsi
@alcatel-lucent.com
The partners of this project will have to realize a demonstrator of a repeatered optical
transmission system relying on multi-mode fibers, components, transmitters and receivers. This system will show for the first time the potentials of mode division multiplexing for ultra-high capacity optical networks of the future.
Large companies:
ALCATEL-LUCENT, DRAKA
In particular, the main bricks that will support the realization of this prototype are:
IRISA/INRIA,
TELECOM SUDPARIS,
UNIVERSITE DE LILLE
◗ theoretical and numerical models for electromagnetic propagation in multimode fibers over ultra-long distances including nonlinear effects;
◗ multiple-input multiple-output
SMEs:
KYLIA
algorithms for the digital signal
processor of a multimode coherent detector;
◗ dynamic
mode
multiplexer/demultiplexers;
PROJECT DATA
◗ multimode erbium doped fiber
Coordinator:
FRANCE
amplifiers;
◗ 2-/4- modes fiber with high effective area, low loss and large
glass diameter.
Call:
ANR
The final system demonstrator
could show an increase in total
capacity of a factor of 2, 4 or more
with respect to present long-haul
optical systems.
Start date:
November 2009
Duration:
36 months
A first demonstrator showing the transmission and detection of 2 modes has been
realized. The experimental results have been presented at the Optical Fiber Conference
(OFC 2011) in Los Angeles on March 2011 at the post-deadline session (PDPB9).
Several experimental demonstrations of few-mode transmission system were shown at
the conference putting in evidence the importance of this topic. Nevertheless, the
experiments realized by the partners of the STRADE project have shown the longes.
Global budget (M2):
3.3
Funding (M2):
1.1
TCHATER
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SURFONHERTZ
Software-defined
broadcast media
indexing engine
By 2011, T-DMB and DRM digital radio broadcasts will share the French airwaves with
traditional AM and FM analogue stations. This change will substantially enrich not only
the diversity of available content, but also the possibilities of indexing this content, either
via existing meta-data tags, or using original features extracted from the radio signal
themselves. Broadcast radio will become a new - but until now under-exploited - source
of multimedia content. Just as it took web browsers like Google to transform the
internet from a simple computer network into a searchable worldwide database, it will
be indispensable to develop new types of navigators capable of searching and organizing
the multimedia streams becoming available in broadcast radio. The SurfOnHertz project
aims to design this new radio navigator.
ON GOING
PROJECT
CONTACT
Olivier ROMAIN
LIP6, UNIVERSITE PARIS 6
+33 (0)1 44 27 96 33
[email protected]
PARTNERS
SMEs:
YACAST
◗ Study, simulation and design of a multi-standard receiver for analog and digital
CEA, ESPCI, ETIS,
INSTITUT TELECOM, LIP6
broadcast bands (AM, FM, DRM and T-DMB) with channelizing capabilities.
◗ Study, simulation and design of indexing engine to search and identify metada.
◗ Study, simulation and design of large band front-end, from 150?k to 1.5?GHz.
◗ Demonstration of the technique in national regions.
PROJECT DATA
Coordinator:
LIP6
Call:
ANR
Start date:
January 2010
Duration:
36 months
Global budget (M2):
1.9
Funding (M2):
1
◗
◗
◗
◗
◗
Project launched on January 28th, 2010.
Development of a large band front end: from 150?kHz to 1.5?GHz.
FPGA-based multi-channel demodulator for analog and digital broadcast standards.
Real-time audio indexing engine for monitoring and radio on demand applications.
Demonstrations: planned, the 1st foreseen Q2 of 2011, the 2nd end of 2012.
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High speed networks
TCHATER
Terminal Cohérent
Hétérodyne Adaptatif TEmps Réel
The goal of Tchater project is to realize a coherent optical receiver at 40 Gb/s able to
detect a Polarization Division Multiplexed (PDM) Quaternary Phase Shift Keying (QPSK)
signal. This modulation format is very promising for ultra high bit rate optical
transmission, when associated at the receiver end with a coherent detector and a
powerful digital signal processor. For that purpose, state of the art Analog to Digital
Converters at 20 Gs/s have been successfully developed. A system board, with real time
digital processing able to process 400 Gb/s has been realized. It is based on
optoelectronic devices developed inside COHDEQ project, the specifics ADCs and the
most powerfull FPGAs commercially available.
COMPLETED
PROJECT
CONTACT
Jean-Marc TANGUY
FRANCE
+33 (0)1 30 77 26 95
jean-marc.tanguy
@alcatel-lucent.com
PARTNERS
◗ 5bits/20Gs/s ADC were realized.
◗ Optimized VHDL codes of receiver al-
Large companies:
FRANCE
gorithms taking into account the parallelism constraints as well as best
precision compromises have been
written.
SMEs:
E2V SEMICONDUCTORS
◗ A fully reprogrammable coherent opti-
ENS LYON, IRISA,
TELECOM PARISTECH
cal receiver at 40Gb/s is currently
under test. This will be of great help to
test new algorithms in real time. In
particular, it should help to mitigate
non linear impairments that are difficult to well track with non real time receivers.
PROJECT DATA
Coordinator:
FRANCE
◗ Publications:
• "12.8Tbit/s Transmission of 160 PDM-QPSK (160x2x40Gbit/s) Channels with Coherent Detection over 2,550km".
• Proceedings of ECOC'07 (European Conference on Optical Communications), PDP
1.6, September 2007, Berlin.
• "A 128-tap complex fir filter processing 20 giga-samples/s in a single FPGA." In
44th Asilomar Conference on Signals, Systems & Computers, 2010.
• “Space-Time codes for optical fiber communication with polarization multiplexing”
ICC 2010.
• "Investigation of design options for overlaying 40Gb/s coherent PDM-QPSK channels over a 10Gb/s system infrastructure ".
• Proceedings of OFC'08, OTuM5, 24-26 Feb 2008, San-Diego (Ca).
Co-label:
MINALOGIC
Call:
ANR
Start date:
January 2008
Duration:
42 months
Global budget (M2):
3.4
Funding (M2):
1.3
COHDEQ 40
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High speed networks
Modules de Transmission et Réception
pour Liaison Optique à fort Budget
TRILOB project targets are:
◗ Design, development and integration of OE components & modules for transmission &
reception dedicated to PON ( (Passive Optical Networks) future generation of Access
& Metropolitan applications.
◗ TRILOB will benefit of an excellent background to adress these targets thank's to the
complementarity skills of consortium partners: (FT Orange for specifications & tests for
future PON network development; ALCATEL THALES III-VLAB & 3SP respectively for OE
components and modules development, EGIDE for package, ESPCI&TELECOM ParisTech academic partners for simulations & tests of critical parts of design).
ON GOING
PROJECT
CONTACT
Emmanuel GRARD
3SPHOTONICS
+33 (0)1 69 80 58 59
[email protected]
PARTNERS
TRILOB innovations lead in very high power laser modulator emitter development associated to very high sensitivity receiver. This will result in a very high optical power
budget opening the way of new PON generation development.
Large companies:
FRANCE TELECOM R&D,
ALCATEL THALES III-V LAB,
EGIDE
SMEs:
3S PHOTONICS
ESPCI, TELECOM PARISTECH
PROJECT DATA
Coordinator:
3S PHOTONICS
Start date:
November 2009
Duration:
30 months
During this phase (RUN1) of TRILOB project, following tasks have been fulfilled:
Global budget (M2):
3
◗ New ILM-SOA components have been fabricated showing state of the art performances on power and extinction ratio.
◗ Thermal simulations & experimentations as well as package design for emitter & receiver have been performed.
◗ System and components simulations & tests have been realised to pave the way for
RUN2.
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TRIMARAN
Time-Reversal MIMO OFDM
Green communicAtions based
on MicRo-structured ANtennas
The aim of this project is to achieve high throughput and high system robustness, in
wireless networks, under a low transmit power consumption constraint, with large
bandwidth and a very large number of antennas over small terminals and access points,
in indoor and indoor-outdoor environments. Solutions adapted to highly scattering
propagation, radio conditions variations due to users low speed are targeted.
ON GOING
PROJECT
CONTACT
Dinh-Thuy PHAN-HUY
+33 (0)1 45 29 65 82
dinhthuy.phanhuy
@orange-ftgroup.com
The project proposes a joint design of OFDM-MIMO and space-time focusing with
micro-structured antennas. Focusing quality will be controlled for a better robustness
of the receiver performance against implementation impairments and multi-path propagation. Innovative algorithms
based on time reversal and
space-time focusing techniques
will be proposed and evaluated by
link and system level simulations. New metrics to measure
robustness and human exposure,
in addition to traditional metrics,
will be defined.
The most important challenge of this project is to produce an experimental prototype
which will provide a proof-of-concept of data transmission with a maximum bandwidth
of 40MHz, OFDM-MIMO, time reversal, and NTxNR micro-structured antennas. The
prototype will include up to NT=8 transmit antennas and up to NR=4 receive antennas.
PARTNERS
Large companies:
FRANCE TELECOM ORANGE,
SMEs:
TIME REVERSAL
COMMUNICATION - TRCOM
IETR INSA OF RENNES,
LANGEVIN INSTITUTE,
TELECOM BRETAGNE
PROJECT DATA
Coordinator:
Co-label:
IMAGES ET RESEAUX
Call:
ANR
Start date:
January 2011
Duration:
36 months
Global budget (M2):
3.0
Funding (M2):
1.1
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High speed networks
Ultra-Wideband Integrated
amplifying Device for Enhanced
WDM optical systems
The UltraWIDE project addresses the issue of increasing the total capacity of
wavelength division multiplexing (WDM) systems through a disruptive approach. Based
on the combination of high performance photonics components with free space optics
technologies, the project aims at developing a disruptive 100 nm-large wideband optical
amplifier covering more than C and L bands together so as to overcome the foreseen
capacity bottleneck in optical networks. The project aims at designing and validating
original WDM system configurations numerically and experimentally, which are best
suited to the specificities of the new optical amplifier. The potential of the novel amplifier
will be assessed while emulating a full wavelength-division multiplexed (WDM) link in
large-scale experiments at up to 100 Gbit/s per channel.
CONTACT
PARTNERS
Jeremie RENAUDIER
FRANCE
+33 (0)1 30 77 27 95
jeremie.renaudier
@alcatel-lucent.com
Large companies:
FRANCE, III-V LAB
The UltraWIDE project addresses
several areas in the research domain of very high bit rates optical
communications:
SMEs:
KYLIA
◗ Specification, design, and fabrication of high performance photonic components paired with
adapted characterisation and
modelling methods.
ECOLE NATIONALE
D'INGENIEURS DE BREST,
TELECOM SUD PARIS,
SUPELEC
◗ Integration of photonic components inside innovative polarization diversity architectures The
polarization diversity structures
will combine free space optics
technologies together with the
photonic components.
PROJECT DATA
◗ Accurate modelling of the device itself, and of a full WDM link with optimized system
parameters (modulation format, dispersion mapping and power levels).
◗ Proposal and validation of original system designs and of node designs taking advantage of the new amplification solution.
◗ Experimental test of the integrated device in a WDM link with the use of advanced
multi-level modulation formats at up to 100Gbit/s channel rate.
◗ Considerations on manufacturability and environment to determine a trade-off between performance, power consumption, cost and footprint.
The project aims at demonstrating the transmission of 100Gbit/s channels spanning
over 100nm bandwidth, over 1000km distance, i.e. more than a hundredfold improvement from the best demonstrated capacityxdistance product of SOA based transmission systems.
By enabling the increase of total system capacity of metro-core and long-haul
applications, the wideband optical amplifier realized in the UltraWIDE project will
provide an efficient gateway between backbone and access networks thus making
easier the development of end to end broadband solutions. As a consequence, the
project is conducted to give rise to a solution that can be rapidly turned into a product
and placed on the market.
Telecoms WG
274
ON GOING
PROJECT
Coordinator:
ALCATEL-LUCENT FRANCE
Co-label:
IMAGES ET RÉSEAUX
Call:
ANR
Start date:
December 2010
Duration:
36 months
Global budget (M2):
3.3
Funding (M2):
1.2
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Urban planning
for Radio Communications
The radio spectrum is a natural resource more and more sollicited by the emergence
of new wireless systems. Authorities have to manage this common resource to facilitate
the admittance of new actors while maintaining the quality of the incumbent services.
The Ile-de-France is one of the region in the world where the density of radio networks
is the strongest. However certain bands are overloaded during the rush hours while
the others are under used. In an international context were we try to find solutions by
modifying the regulation, new means must be thought to insure at the same time an
optimized spectrum, a controll of the quality (jammings, availability, coverage) as well
as a control of the urban planning (levels of field strenghts, impact on the environment).
Validation of the role that collectivities can take in spectrum management. Support to initiatives and stimulation of the R&D in the field of dynamic spectrum access and cognitive
radio. Breakthrough in the
field of DSA algorithms and
simulation. Breakthrough
in architecture of radio systems dealing with flexible
use of the spectrum having
shown the perfect coherence between the studies
on the models, the usage
scenarios and the exploitation of the radio measurements in Ile-de-France.
Breakthrough in product
for spectrum management
and monitoring, the WiFi
and the WiMax.
COMPLETED
PROJECT
CONTACT
Yvon LIVRAN
+33 (0)1 46 13 24 73
[email protected]
PARTNERS
Large companies:
ALCATEL-LUCENT,
FRANCE TELECOM, TDF,
THALES
SMEs:
COMSIS, LS TELCOM SAS,
PY-AUTOMATION, SEQUANS
ENSTA, PRISM, SUPELEC,
TELECOM PARISTECH,
TELECOM SUDPARIS, UCP,
UNIVERSITE DE CERGYPONTOISE
PROJECT DATA
Coordinator:
◗ Products:
Call:
FUI1
Dynamic Spectrum management tool. Adaptation of spectrum monitoring tools to
sensor dissemination, smart radios and spectrum flexible devices.
◗ Services:
Start date:
October 2006
Duration:
39 months
New regulatory model.
◗ Patents: 1.
◗ Publications:
53 publications including contributions to IEEE and ITU-R, 50 seminars or conferences.
Global budget (M2):
14
Funding (M2):
5.2
5 radio spectrum measurement campaigns.
◗ Job creation:
Positive impact of URC for all partners.
Dynamic spectrum management.
Telecoms WG
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High speed networks
VERSO-MODULE
Source optique intégrée
à MOdulation DUaLE
pour réseaux locaux
et métropolitains
The present deployment of FTTH services together with the development of new
professional services have generated many new challenges in the design of low cost,
small size, low consumption, optical. The monolithic integration of a semiconductor
laser and of an electro-absorption modulator bring forward many of these advantages
due to its small size, low driving voltage, and high operating velocity. By exploiting the
simultaneously modulation of both the laser and the modulator (dual modulation), the
MODULE project develops applications in higher bit-rate digital transmission as well as
in radio-over-fibre and access networks (single-side-band modulation, OFDM). This
requires new component designs, new dual drivers and the determination of the
operating condition through advanced modelling and experimental characterisations.
Two-electrode EMLs constitute simple and cheap components for communication
transmitters due to their small size, low power consumption and high speed. These
features are crucial in network growth. New industrial standards for 10 Gb/s access,
100 Gb/s (4x25 Gb/s) short reach interfaces, etc already include EMLs. Our project aims
towards new smart usages of this simple component in order to enhance its applications fields in terms of distance, transmission penalty, but also to stimulate new ones
like, radio signal transport or orthogonal modulation. If successful, this hardware convergence may lead to a larger market and lower costs via a more generic component
for different network segment equipment. The "dual modulation" concept arose from
a previous successful collaboration. Now these EMLs require some more componentoriented research so as to efficiently leverage the performance and application fields.
Difficulty arises when devices are pushed toward higher bit rates (25, 40 Gb/s) and to linear formats (single sideband, OFDM). The MODULE consortium associates an operator's vision, academics modelling and testing capability to fabrication of components
and driving electronics.
MODULE introduces novel applications for well-mastered EMLs to complete solutions
at 10Gb/s, evolutions toward higher modulation speeds and new smart applications for
acces networks; it establishes new knowledge with models, simulations and
measurements for expertise on optoleectronic components and systems. We should
demonstrate the feasibility of dual modulation EMLs in high rate transmissions and in
analogical systems. A transfer toward pre-production can latter be envisaged.
CONTACT
Didier ERASME
TELECOM PARISTECH
+33 (0)1 45 81 74 20
didier.erasme
@telecom-paristech.fr
PARTNERS
Large companies:
III-V LAB, FRANCE TELECOM
ORANGE LABS
CNRS-LPN,
TELECOM PARISTECH,
XLIM/UNIVERSITÉ DE
LIMOGES
PROJECT DATA
Coordinator:
TELECOM PARISTECH
Co-label:
ELOPSYS
Call:
ANR
Start date:
November 2009
Duration:
36 months
Global budget (M2):
2.1
Funding (M2):
0.7
Telecoms WG
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ON GOING
PROJECT
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& Communications
Widening Interoperability for
Networking Global Supply Chains
The large scale EPCglobal architecture framework is considered as a part of the
emerging Internet of Things. One of its key standard-based components is a centralized
objects directory service called the ONS (Object Naming Service) and based on the DNS
(Domain Name System).
Given the importance of ONS systems in the near future, the WINGS project aims at
developing alternative solutions to the incumbent architecture.
ON GOING
PROJECT
CONTACT
Nicolas PAUVRE
GS1 FRANCE
+33 (0)1 40 95 54 62
[email protected]
To ensure the further interconnection and interoperability of multiple roots, the project
partners propose to design and evaluate a federated ONS system that will take into
consideration security, stability, performance as well as interaction with DS (Discovery
Services).
PARTNERS
Large companies:
ORANGE
WINGS will contribute to:
SMEs:
AFNIC, GS1 FRANCE
◗ Network governance and standardisation work enhancement.
◗ Implementation of ambient intelligence in the supply chain with broadly-based and
GREYC, INRIA, LIP6
open business enterprise networks.
◗ Industrial research platform for enhancing innovative solutions (peer-to-peer technologies, discovery services…).
PROJECT DATA
◗
◗
◗
◗
◗
Project launched on October 22nd, 2009.
Requirements, Opportunities and Standardization issues analysis: completed.
Multi-Root ONS - Approaches, Algorithms and Implementations: on going.
Multi-Root ONS - Experimenting the alternative approaches: planned for 2011.
ONS Interaction with Multi Discovery Services: strategy completed.
Coordinator:
GS1 FRANCE
Co-label:
CAP DIGITAL, NOV@LOG
Call:
ANR
Start date:
October 2009
Duration:
24 months
Global budget (M2):
1.6
Funding (M2):
0.6
Telecoms WG
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Index of
Management Board Members
Local authorities voting college
CA DE SAINT-QUENTIN-EN-YVELINES
CONSEIL GENERAL DE L'ESSONNE
CONSEIL GENERAL DES HAUTS-DE-SEINE
CONSEIL GENERAL DES YVELINES
CONSEIL GENERAL DU VAL D'OISE
DEPARTEMENT DE PARIS
REGION ILE-DE-FRANCE
Company voting college
ALCATEL-LUCENT
ALTIS SEMICONDUCTOR
ALSTOM TRANSPORT
ALTRAN
ARCHOS
BERTIN TECHNOLOGIES
BOUYGUES TELECOM INITIATIVES
BULL
CITYPASSENGER
COMSIS
CONTINENTAL AUTOMOTIVE
DASSAULT AVIATION
DISTENE
EADS
EDF
ESI GROUP
ESTEREL TECHNOLOGIES
EURODECISION
FRANCE TELECOM Orange
GEMALTO
KALIS
KAYENTIS
LOGILAB
MEDIT
MORPHO
NUMERIQUE ASSISTANCE
OXALYA
RENAULT
SPRING TECHNOLOGIES
TELNET
TERATEC
THALES
VALEO
WALLIX
Research and higher education voting college
CEA
ECOLE CENTRALE PARIS
ECOLE POLYTECHNIQUE
ENSEA
INRIA
INSTITUT D'OPTIQUE GRADUATE SCHOOL
INSTITUT TELECOM
CNRS- IMMI
ONERA
PRES UNIVERSUD PARIS
SUPELEC
SUPMECA
UNIVERSITE PIERRE ET MARIE CURIE
UNIVERSITE VERSAILLES SAINT-QUENTIN-EN-YVELINES
278
EXECUTIVE
BOARD
Robert Cadalbert
Jérôme Guedj
Thierry Solere
Christian Beley
François Scellier
Jean-Louis Missika
Jean-Paul Huchon
Jean-Luc Beylat
Pascal Louis
Didier Van Den Abeele
Frédéric Grard
Henri Crohas
Luc Renouil
Arnaud Michard
Jean-François Lavignon
Bruno Duval
Philippe Leclair
Louis-Claude Vrignaud
Gérard Poirier
Laurent Anne
Jean Perrot
Bernard Salha
Etienne De Pommery
Eric Bantegnie
Eric Jacquet-Lagrèze
Jacques Guichard
Jean-Pierre Tual
Thierry Campos
Daniel Schaefer
Philippe Berna
Olivier Cayrol
Emmanuel Vaumorin
François Delfaud
Jean-Marc Suchier
Ghislaine Alajouanine
Alban Schmutz
Christian Balle
Gilles Battier
Anis Youssef
Gérard Roucairol
Dominique Vernay
Gilles Le Calvez
Jean-Noël de Galzain
Riadh Cammoun
Jean-Hubert Schmitt
Michel Blanc
Farid Temcamani
Bruno Sportisse
Jean-Louis Martin
Jean-Claude Jeanneret
Joseph Mariano
Claude Barrouil
Xavier Chapuisat
Alain Bravo
Jean-Claude Arditti
Guy Couarraze
Jean-Charles Pomerol
Sylvie Faucheux
Elected Members
Dominique Vernay
THALES
Christian Balle
RENAULT
Gilles Battier
SPRING TECHNOLOGIES
Jean-Luc Beylat
ALCATEL-LUCENT
Alain Bravo
SUPELEC
Riadh Cammoun
CEA
Jean-Noël de Galzain
WALLIX
François Delfaud
MEDIT
Jacques Guichard
Jean-François Lavignon
BULL
Gilles Le Calvez
VALEO
Joseph Mariano
CNRS- IMMI
Gérard Poirier
DASSAULT AVIATION
Bruno Sportisse
INRIA
Jean-Marc Suchier
MORPHO
Didier Van Den Abeele
ALSTOM TRANSPORT
Guest members
Stéfane Fermigier
NUXEO
Thierry Houdoin
Jean-Pierre Tual
GEMALTO
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Steering commitees members
ALSTOM TRANSPORT
ALSTOM TRANSPORT
ARMINES PARIS
ARMINES PARIS
CEA
CEA SACLAY
CEA SACLAY
CNRS PARIS
DELPHI
DELPHI
SEE4SYS
INRETS
INRIA ROCQUENCOURT
INTEMPORA
RENAULT GUYANCOURT
RENAULT GUYANCOURT
RENAULT TRUCKS
RENAULT TRUCKS
ST MICROELECTRONICS
UNIVERSITE DE TECHNOLOGIE
DE COMPIEGNE
VALEO BOBIGNY
VALEO
VISTEON
VISTEON
Didier VAN DEN ABEELE
[email protected]
Pascal POISSON
[email protected]
Claude LAURGEAU
[email protected]
Philippe FUCHS
[email protected]
Xavier APOLINARSKI
[email protected]
Riadh CAMMOUN
[email protected]
Jean-Marc ALEXANDRE
[email protected]
Véronique VIGUIE DONZEAU-GOUGE
[email protected]
Serge BOVERIE
[email protected]
Frédéric LE-HUNG
[email protected]
Philippe GASNIER
[email protected]
Kamel MAAZIZ
[email protected]
Denis GRIOT
[email protected]
Gérard MANIEZ
[email protected]
Serge LAVERDURE
[email protected]
Jean-Marc BLOSSEVILLE
[email protected]
Anne-Céline LAMBALLE
[email protected]
Gilles MICHEL
[email protected]
Olivier GUETTA
[email protected]
Christian BALLE
[email protected]
Claude COVO
[email protected]
Bernard FAVRE
[email protected]
Jochen LANGHEIM
[email protected]
Ali CHARARA
Philippe GOUGEON
Gilles LE CALVEZ
Jacques JAUBER
Hervé DUFAU
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
FREE & OPEN SOURCE SOFTWARE WG
ALCATEL-LUCENT
CAP GEMINI
CS
INRIA SACLAY
NUXEO
OW2 CONSORTIUM
QUALIXO
UNIVERSITE PARIS 7 DENIS DIDEROT
UNIVERSITE PIERRE
ET MARIE CURIE PARIS 6
WALLIX GROUPE IF RESEARCH
Philippe CARRE
Jean-François CAENEN
Gilles LEHMANN
Patrick MOREAU
Stefane FERMIGIER
Jean-Pierre LAISNÉ
Philippe VAILLERGUES
Roberto DI COSMO
Amal EL FALLAH SEGHROUCHNI
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Projects commitee members
ADACORE
ALCATEL-LUCENT
CNAM
INRIA
LOGILAB
OPEN WIDE
UNIVERSITE PANTHEON SORBONNE
UNIVERSITE PARIS NORD
UNIVERSITE PIERRE
ET MARIE CURIE PARIS 6
Cyrille COMAR
Philippe CARRE
Maria-Virginia APONTE
Fabrice LE FESSANT
Nicolas CHAUVAT
Pierre FICHEUX
Selmin NURCAN
Laure PETRUCCI
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Emmanuel CHAILLOUX
[email protected]
279
24/05/11
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Steering commitees members
ADACORE
CS
CEA
DASSAULT AVIATION
DISTENE
EADS ASTRIUM
EDF R&D CLAMART
ENGINSOFT
INRIA ROCQUENCOURT
SAMTECH
SCILAB Enterprises
SPRING TECHNOLOGIES
THALES RESEARCH AND TECHNOLOGY
UNIVERSITE DE TECHNOLOGIE
DE COMPIEGNE
Cyrille COMAR
Jacques DUYSENS
Pierre LECA
Gérard POIRIER
Laurent ANNE
Denis CLERC
Jean-Yves BERTHOU
Yves SOREL
Philippe PASQUET
Christian SAGUEZ
Gilles BATTIER
Gérard CRISTAU
Benoit EYNARD
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
ALCATEL-LUCENT
CEA
DEVERYWARE
FRANCE TELECOM
ISSY-LES-MOULINEAUX
GEMALTO
GENITECH
INRIA
KEYNECTIS
MARTEC
MORPHO
TELECOM SUD PARIS
THALES
Bertrand MARQUET
Jean-Louis SZABO
Stéphane SCHMOLL
Vincent BAUDINAUD
[email protected]
[email protected]
[email protected]
[email protected]
Thierry BARITAUD
Jean-Pierre TUAL
Didier PLAS
Brigitte DUEME
christian BRAUT
Laurent BARATIER
Samuel VINSON
Hervé DEBAR
Daniel PAYS
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Olivier AUDOUIN
Jean-Noël PATILLON
Bruno DUVAL
Ignace DUPON
Thierry HOUDOIN
Bernard ODIER
Thierry LESTABLE
Hikmet SARI
Gilles BOURDÉ
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
TELECOMS WG
ALCATEL-LUCENT
CEA
CITY PASSENGER
EGIDE
INRIA SACLAY
SAGEMCOM
SUPELEC GIF
UNIVERSITE DE VERSAILLES
ALTRAN
IP LABEL NEWTEST
INSTITUT TELECOM
TELECOM SUDPARIS
SEQUANS COMMUNICATIONS
280
Samir TOHME
Véronique VÈQUE
Mehand GUIDDIR
William RANG
[email protected]
[email protected]
[email protected]
[email protected]
Nunzio SANTORO
Guillaume VIVIER
[email protected]
[email protected]
24/05/11
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Page 281
The Cluster and its R&D projects
are supported by:
DIRECCTE, the Industry Ministry
regional representative, works
side by side with competitiveness
clusters since their creation.
Since 2008, in addition to FUI, DIRECCTE has implemented a
R&D collaborative projects funding mechanism called FEDER
(European Regional Development Fund) with Paris-Region local
authorities.
23 Systematic projects (representing an R&D effort of 26,5M€
- including 14,2 M€ of FEDER funding) are currently under development.
DIRECCTE supports governing
bodies of the Paris-Region clusters, among which Systematic,
alongside local authorities.
It also leads funding committees
of the“Fonds Unique Interministériel” (FUI) which supports FUI
Systematic projects.
Finally, within the framework of the “Contract de Plan Etat Region”, DIRECCTE supports with the Paris-Region Regional
Council, the 2M€ “Ambition PME” program. Its goal is to help
SMEs of the Optics and Complex Systems industry to be more
competitive.
First French economic region
and first European region for
technological research, the
Paris Region chose to encourage this potential and thus to contribute to technology transfers and to economic valorisation of
results while investing more than 215 M€ per annum in research
and innovation, i.e. 5% of its budget.
The Region has also accompanied more than 200 R&D projects
from the “pôles” for an amount of more than 144 M€, in the
fields of health, digital, ICT, automotive, aeronautics, sustainable
city, ecotechnologies… The Region has supported in particular
projects in “software and complex systems” coming out of Systematic to the value of 47M€, or 33% of the total awarded to all
projects from all competitiveness clusters.
Since 2005, the Paris Region has encouraged the creation of
public and private research networks, thus funding the governing bodies of Paris Region competitiveness clusters with up to
13,5M€ for their innovation and research projects, creation and
reinforcement of specific industries, interregional and international co-operation missions…
This collective investment effort from public funders, companies and academia must continue so that together the initiated
dynamics develops and contributes to a growth of wealth and
competitiveness of our territory. »
The global cities of the 21st
century, such as Paris,
must invest massively in
the knowledge economy to develop an advanced research and
high level training. This investment is the origin of an economic
dynamics rich in high value employment and urban innovations
useful for the population. The city of Paris finances, supports
and coordinates all initiatives going in this direction.
Paris is involved in the creation of an innovation ecosystem
closely associating research institutes, innovative SMEs and
large technological companies.
In line with its economic development
policy, the Yvelines county Council
provides support to R&D projects
from companies as well as research
institutes and universities which develop collaborations with
companies. The county Council also lends its support to the
competitiveness clusters’ policy launched by the Government
in 2005.
FUI 1 and 10. These 100 partners represent 113 grants and a financial support of 26 M € from the Yvelines county Council.
DR R E
lle-de-France
For all competitiveness clusters, the Yvelines county Council has
given financial support since 2005 to 100 Yvelines based partners engaged in 79 collaborative projects approved between
The support to competitiveness clusters, where these various
communities can exchange and collaborate to generate new
benefits for the territories, is an integral part of this approach.
Find more on paris.fr
Regarding Systematic, the Yvelines county Council awarded
support to 39 beneficiaries (15 large companies, 2 intermediary
size enterprises, 18 SMEs and 4 publicbodies). These are involved in collaborative projects representing a financial support
of 15 M € or 58 % of the subsidies awarded by the Yvelines
county Council to the 8 competitiveness clusters present in the
Yvelines.
281
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Around 20,000 researchers are working in
Essonne in the scientific sector. The main
characteristic from Essonne is to host prestigious scientific institutions: some of them are
dedicated to public research or to private research, others to
education, famous engineering school – “grandes écoles” – or
small innovative enterprises. Essonne research is particularly
prevalent in areas of optics, electronics, software and information technology and communication, now related to clean technology. This excellence helps to develop collaborations with
industry and gives birth to a cluster.
That’s why, since 10 years, the Department supports the development in optics, electronics and software engineering and
took part in the recognition in 2005 as a National Cluster. The
General council of Essonne is an active member of Systematic
Paris-Region and participates in collaborative projects by supporting essonnian laboratories and companies.
With 200 000 jobs and more than
14 000 companies, the digital industry is a major axis of growth and development in the Hautsde-Seine.
This is the reason why the county council of Paris Hauts-deSeine decided to strengthen its links with Systematic cluster
and to support SMEs located in the Hauts-de-Seine.
Since 2006, its support has directly financed 25 projects of development (7.9 M €).
The Val d’Oise County Council is involved in
seven competitiveness clusters among which
Systematic and supports financially within this
framework the industrial and academic R&D
projects’ stakeholders. In the framework of the County Strategic Plan for sustainable development of the economy and employment 2009-2019, the County has decided to support the
Embedded Intelligence, Mecatronics and “Telecom and Mobile
Software”cluster, industries of excellence of the Val d’Oise no-
tably based upon resources in Free Open Source Software and
in Cloud Computing.
The territory counts many industrial groups, as well as a huge
concentration of SMEs and educational and research establishments in the field of software and complex systems. A project
of “Regional Center of Intelligence and Embedded Systems” is
being developed, with the support of the County Council, and
will enable to host, maintain and develop private and public
technological platforms related to embedded intelligence.
OSEO offers expertise in 3 key areas, providing
effective solutions to the entrepreneurs and
sharing risk with them, including member
companies of clusters: support for innovation, guarantees to back
bank financing and equity contributions, and financing for investments and for the business operating cycle.
support for editing project partnership. Internationally, it is about
helping companies to identify the best international partners and
forge technology partnerships with them focused on creating
value.
For R & D projects accredited by the french clusters, OSEO mobilizes support for innovation (AI program) and strategic industrial
innovation program (ISI program).
Specific actions have also been developed to assist companies in
developing collaborative projects: information and networking,
The National Research Agency was created by
2005 in order to provide France with a competitive research funding agency in line with international standards. Among its missions, the ANR aims at
promoting excellent and relevant academic research and innovation by encouraging emergence of cross disciplinary projects
and developing partnerships between industrials and researchers.
The ANR supports the competitiveness clusters by giving supplementary funds to research projects that applied for ANR’s
282
The Department of economical development and research has
several main goals including support public research, higher
education and technological innovation (incubator, nurseries
and hotels business).
In short term, the wide optical fiber network project “THD
Seine” of the county council of Paris Hauts-de-Seine to be deployed by 2015, will create opportunity for additional growth in
the Hauts-de-Seine.
In this context of transnational technology partnerships, the
EUREKA program, and the 7th Framework Programme for
Research and Technological Development (FP) play an essential
role.
Finally, since September 2009, the public authorities have entrusted to OSEO the FUI (Fonds Unique Interministériel) management, dedicated to the financing of R&D projects of clusters.
calls for proposals and are labelled by the clusters. This supplementary funds aim at enhancing the relationships between
the project’s partners and the competitiveness cluster (6.57 M€
in 2010). Thereby the ANR alongside the clusters contribute to
foster technological and research communities.
Since 2005, the ANR has been one of the main funding agencies
of this policy alongside other state sources of funding and local
and regional government. Over the period, ANR support
amounted 1153 M€ for1656 projects.
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A
A.D.N
ACCESSIM
ACTIVOPT
ADMIN PROXY
ADS+
AEOLUS
AG@PE
AGREGATION
AMELHYFLAM
AMORCE
AQUEDUC
ARAMIS
AROS
ASOPT
ASPIC
ATTITUDE 4G+
B
BACARRAT
BINCOA
BEST
BINGO
BLINKSTER
BMOS
C
C2M
CAMPAS
CANOE
CARRIOCAS
CBDP
CDTO
CERCLES 2
CESAR
CHAPI
CHRONOS
Co-DRIVE
COCLICO
CODEX
COHABIT
COHDEQ40
COLLAVIZ
COMPATIBLE ONE
CONCEPT
CONNECT
CONRAHD-MINHOS
COOLIT
COP DRONE
CORTEX 3D
CORVETTE
COUVERTURE
CPP
CSDL
CULTURE CLIC
■
■
■
■
■
■
■
■
■
■
236
237
85
170
86
17
53
87
88
238
D
DATA PUBLICA
DESCARTES
DESKOLO
DIAFORE
DIAMONDS
DIAPA
DORM
■ 54
■ 171
■ 55
■ 18
■ 172
■ 19
■ 56
E
E-COMP@GNON
E-FRAUD
E-MOTIVE
EASYSOA
ECLIPSES
ECOFRAME
ECONHOME V2
ECOSCELLS
EDONA
EHPOC
ELHAN
EMYR
EPOD
ESPRI
ESTER
EVOD
EXOTICUS
EXPAMTION
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
240
174
21
57
173
239
241
242
20
89
243
90
244
175
176
91
245
92
F
F-LAB
FAME2
FC²
FLACOMARE
FLEX-EWARE
FOST
FP3C
■ 246
■ 93
■ 177
■ 94
■ 95
■ 96
■ 97
G
GEDRIVER
■
22
283
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GENCOD
GENGHIS KHAN
GRECO
■ 98
■ 247
■ 248
H
HECOSIM
HELIOS
HILITE
HIPIP
■
■
■
■
23
58
59
99
I
ICADAC
IHS10
IMOFIS
IMPRO
INDIAC
IOLS
IOMCA
IPNQSIS
IRIMI
ISI-PADAS
ITRANSPORT 2.0
■
■
■
■
■
■
■
■
■
■
■
24
25
26
27
100
101
102
249
103
28
29
J
JASMIN
JESTIMULE
■ 104
■ 105
K
KIVAOU
KIVI
■ 178
■ 250
L
LABS
LAMBDA
LEA
LOCINDOOR
LOVE
■
■
■
■
■
106
107
179
180
30
■
■
■
■
■
■
■
■
■
■
■
■
255
182
60
181
31
251
252
32
183
253
254
108
M
M-SCARF
MA-NRBC
MAGNUM
MANIF
MASCOTTE
MCUBE
MEDIATIC
MEMVATEX
METHODEO
MEVICO
MICROS
MIEL 3D-MESHER
284
MOBILAO
MOBISIC
MODELISAR
MOHYCAN
MOSIC
MOVIDA
MPSOCEXPLORER
■
■
■
■
■
■
■
184
185
33
109
110
111
112
■
■
■
■
■
113
61
256
186
187
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
114
115
34
116
117
257
35
188
118
119
120
121
122
123
189
124
190
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
191
125
126
127
128
192
36
193
129
194
130
258
131
132
259
133
N
N-POEM
NEOPPOD
NEPTUNE
NIMBLENET
NOTSEG
O
O2M
O2M P2
O4A PHASE II
OASIS
OCELLE
OCELOT
ODIAAC
ODYSSEE
OLDP
OPARUS
OPEN GPU
OPEN HPC
OPSIM
OPTIDIS
OPTIMUM
OPUS
OSOSOSOS
P
PAMPA
PANDA
PARMAT
PARSEC
PEGASE
PERSOPOLIS
PETRA
PFC
PHERMA
PIMI
POPS
POSEIDON
PPR
PROTEUS
PUMA
PUMA
PWD
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■
62
■
■
■
■
260
195
261
134
■
■
■
■
■
■
■
■
■
■
135
262
196
263
136
197
137
37
138
63
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
198
199
139
200
201
38
202
39
140
64
264
265
203
40
204
266
205
267
141
142
206
207
143
41
144
208
209
210
145
268
Q
QOS-WIFI
QUASPER R&D
QUATRO-2
QUICK GPS
R
RADIOLA
RAF
RECONSURVE
RECOSS
REPDYN
ROLE-ID
ROMMA
RT-DESCRIBE
RT-SIMEX
RTEL4I
S
SAFEAROUND
SAIMSI
SALTY
SAMOSA
SAPHIR 2
SASHA
SCALP
SCARLET
SCOS
SCRIBO
SEAMLESS
SEANET
SECURED ALGORITHM
SEEDS
SEFPGA
SENSCITY
SEQURE
SESAME
SHAN
SHPCO2
SIC
SIGNATURE
SIMILAN
SIRSEC
SISTAE
SMART VISION
SMARTFENCE
SMARTMESH
SOCLIB
SOLIMOBILE
SPEEDCAM
SPIDERS
SQUALE
SQUASH
SRPM
STIMULEE
STRADE
STURM4
SURFONHERTZ
SYGEO
SYS-MCO
SYSPEO
■
■
■
■
■
■
■
■
■
■
■
■
42
211
65
66
212
146
269
147
270
148
149
43
■
■
■
■
■
■
■
■
■
213
271
150
44
214
215
272
273
216
■
■
■
■
■
■
151
274
275
152
153
154
■
■
■
■
■
■
155
156
276
217
218
157
■
■
■
■
■
158
159
67
277
160
T
TARANIS
TCHATER
TERAOPS
TICTACT
TISPHANIE
TOCHA
TRILOB
TRIMARAN
TSC
U
U3CAT
ULTRAWIDE
URC
USINE LOGICIELLE
USINE NUMERIQUE
USINE NUMERIQUE 2
V
VAUCANSON 2
VERDE
VERSO-MODULE
VIDEO-ID
VIGIEs
VUE
W
WAAVES GP
WARM
WIKI 3.0
WINGS
WINPOWER
X
XVISION
■ 219
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Member’s
alphabetical list
SME
3S PHOTONICS, 6WIND, ACMEL INDUSTRIES, ACTILITY, ACTIVNETWORKS, ADACORE, ADACSYS, ADLER TECHNOLOGIES,
ADVEOTEC, AESMA, AFNET - SE CONSEIL, AGORANOV, AICAS, ALCION ENVIRONNEMENT, ALIXEN, ALL4TEC, ALTER WAY,
ALTERNATIV VISION OF BUSINESS, AMARILE, AMEXIO, AMPLISENS, AMPLITUDE TECHNOLOGIES, ANAKEEN, ANEVIA,
ANT'INNO, APCFC, APPEDGE, ARAOK!, ARCURE, ARIANE SYSTEMS, ARICAD, ARION, ARKAMYS, ARKOON NETWORK SECURITY,
ARTELYS, ARTENUM, ARTERIS, AS+, ASSISTEO, ASTALIA, ATEGO, ATEJI, ATEME, ATRIUM DATA, AVERTEC, AXTRID, BARACODA,
BE FREE NETWORKS, BEARSTECH, BIO MODELING SYSTEMS, BLUWAN, BOTTIN CARTOGRAPHES, BSO NETWORK SOLUTIONS,
BULKYPIX, CADEGE HOSSUR TECH, CADEV, CADLM, CALAME SOFTWARE, CAMINEO, CAP2020, CAPS ENTREPRISE, CARAMEL, CDVI - CONSTRUCTION DIFFUSION VENTE INTERNATIONAL, CEDRALIS, CELESTE, CELI, CHECKPHONE TECHNOLOGIES,
CIELE, CIRA, CITIZENSIDE, CITY PASSENGER, CIVITEC, CLEARSY, COBHAM ANTENNAS, COFLUENT DESIGN, COGNITION,
COMSIS, CORIOLIS COMPOSITES, COSYTEC, CRYPTOEXPERTS, CRYPTOLOG INTERNATIONAL, DAF CONSEIL, DATA PUBLICA,
DÉDUCTIONS, DELTACAD, DETEXIA, DEVERYWARE, DICONEX, DICTAO, DISTENE, DOSISOFT, DOTMOBIL, DOTVISION,
DOUAISIENNE DE BASSE TENSION, DPS, DURAN, DXO SIG, E-BLINK, ECOCUBE, ECOSYS GROUP HOLDING, EDENWALL
TECHNOLOGIES, EFECTIS, EGYLIS, EIRIS CONSEIL, ELAPSE, ELLIDISS TECHNOLOGIES, EMITECH, ENGINSOFT, ENOVANCE,
ENTR'OUVERT, EPIPHYTE, EQUIPSEM, ERCOM, ERTE, ESG AUTOMOTIVE FRANCE, ESII, ESTEREL TECHNOLOGIES ELANCOURT,
ESTEREL TECHNOLOGIES VILLENEUVE LOUBET, ETHER TRUST, EUREVA, EURODECISION, EUROSTEP, EVE, EVITECH, EVOSYS,
EXOSEC, FAAR INDUSTRY, FLEXRAS TECHNOLOGIES, FOXSTREAM, FRANCE DEVELOPPEMENT CONSEIL, FUTUREO,
GENIGRAPH, GENOSTAR, GEO212, GEOCONCEPT, GINKGO NETWORKS, GONTRAN, GOOBIE, GRAITEC, GREEN
COMMUNICATIONS, HAMBURWARE, HAND CO, HAPLOID, HD3D, HEDERA TECHNOLOGIES, HENIX, HEXAGLOBE, HGH
SYSTEMES INFRAROUGES, HITRONETIC, HLP TECHNOLOGIES, HOTEL PERFORMANCE, HPC PROJECT, HYBRIGENICS,
HYPERPANEL LAB, IEUROP, IJENKO, ILEX, IMPROVE SA, INEOVATION, INFINITE WEBMEDIA, I-NOVA, INPIXAL SAS, INTEMPORA,
INTERCIM, INTES FRANCE, INTUIT TECHNOLOGIES, IPLABEL, IS2T, ITAAPY, JD RECHERCHE & INNOVATION, JETMOBILE,
KALIS, KALRAY, KARMICSOFT, KAYENTIS, KELCODE, KELIS, KEODS, KEYNECTIS, KINEOCAM, KNOWLEDGE INSIDE, KXEN,
KYLIA, LABOGROUP SAS, LASCOM, LEGOS, LEMONWAY, LINAGORA, LOGILAB, LS TELCOM SAS, LTU, LUCEOR, LYNKWARE,
MAARCH, MACAUTO, MAGILLEM DESIGN SERVICES, MANDRIVA, MARBEN PRODUCTS, MASA GROUP, MEDIT, MEDYSYS,
MERCURY TECHNOLOGIES, MIA SOFTWARE, MLSTATE, MONDECA, MONTIMAGE, MOVIKEN, MYKOMEDA, NAVIDIS, NECS, NEO
SESAME, NEO TELECOMS, NETASQ, NEXEDI, NIT, NOMADIC SOLUTIONS, NOVAPACK TECHNOLOGIES, NTX RESEARCH,
NUMERIQUE ASSISTANCE, NUMTECH, NUXEO, OBAD MOBILE MARKETING, OBEO, OLFEO, OMMIC, OMNITECH SECURITY,
OPEN WIDE, OPENTEKHNIA, OPENWAYS, OPPIDA, OPTICSVALLEY, OPTIMPROCESS, OPTOPARTNER, ORELIA, OSLANDIA, OW2
CONSORTIUM, OXALYA, PAGES UP, PAQTIGO, PARTELEC, PDF SOLUTIONS, PGES, PHIMECA ENGINEERING, PHOTOSPACE,
PILOT SYSTEMS, PORTANEO, PPSL, PRAGMADEV, PRAXEDO, PRESCOM, PRISMTECH, PRODOMO, PROENGIN, PROXEM,
PRYLOS, PY-AUTOMATION, QOSMOS, QUALIXO, REFLEX CES, RENUDA, RESONATE MP4, SAFERIVER, SAMTECH, SAPHYMO,
SATIMO, SCALEO CHIP, SCAN & TARGET, SE CONSEIL, SECTOR GROUP, SECURE-IC, SEE4SYS, SEFI - SEF INDUSTRIE,
SENTINELO, SEQUANS COMMUNICATIONS, SEQURENET, SESTREAM, SHERPA ENGINEERING, SILICOM, SIMPOE, SIMTECH,
SIMULITY, SINOVIA, SIPELIA, SISPIA, SISTECH, SMARTESTING, SMARTSIDE, SOFTWARE CONTINUITY, SOLARNET, SOPINSPACE,
SOYATEC, SPIRULA, SPLITTED-DESKTOP SYSTEMS, SPRING TECHNOLOGIES, STREAMEZZO, STREAMVISION, SUPRATEC,
SYROKKO, SYSGO, SYSRA, SYSTAR, SYSTEREL, SYSTREL, TAGMATICA, TALEND, TECHNOLIA FRANCE, TECHVIZ, TERATEC, TIME
REVERSAL COMMUNICATIONS, TOPMC, TRANEF, TRANSATEL, TRIALOG, TROCHET, TRUSTED LABS, TUNECHARGER,
UBIQUITOUS STORAGE, UCOPIA COMMUNICATIONS, UINT, UNIVERSAL FLOWER, UUPOST, VALOTEC, VECSYS, VECTOR,
VECTRAWAVE, VIAVOO, VIERLING COMMUNICATION, VILLE FLUIDE, VIRTUALLOGIX, VIRTUOR, VISIOLASER, W4, WALLIX GROUPE
IF RESEARCH, WEBDYN, WEBLIB, WELOVEWORDS, WILLIAMSON ELECTRONIQUE, WINNOVE, WIZEO, XIRING, XWIKI, YACAST,
YSANCE, ZAMIREN, ZENIKA, ZODIANET
RESEARCH INSTITUTES AND UNIVERSITIES
ARMINES EVRY, ARMINES FONTAINEBLEAU, ARMINES PARIS, CEA DAM, CEA FONTENAY, CEA GRENOBLE, CEA SACLAY, CITE
DES SCIENCES ET DE L'INDUSTRIE, CNAM, CNRS MARCOUSSIS, CNRS PARIS, CNRS TOULOUSE, CSTB, DIGITEO, ECE, ECOLE
CENTRALE LYON, ECOLE CENTRALE NANTES, ECOLE CENTRALE PARIS, ECOLE POLYTECHNIQUE, EISTI, ENS CACHAN,
ENSAM, ENSEA, ENSEIRB, ENSTA, EPITA, ESIEE PARIS, ESILV, FONDATERRA, HEC, IFP, IFRES, INRETS ARCEUIL, INRETS
NOISY LE GRAND, INRETS VERSAILLES, INRIA GRENOBLE, INRIA LILLE, INRIA ROCQUENCOURT, INRIA SACLAY, INRIA SOPHIAANTIPOLIS, INSERM, INSTITUT D'OPTIQUE, IRISA, IRSEEM, ISEP, IUT DE MONTREUIL, LORIA, OBSERVATOIRE DE PARIS,
ONERA, PRES UNIVERSUD PARIS, SUPELEC GIF, SUPELEC METZ, SUPMECA, TELECOM BRETAGNE, TELECOM PARISTECH,
TELECOM SUD PARIS, UNIVERSITE BLAISE PASCAL CLERMONT-FERRAND 2, UNIVERSITE DE TECHNOLOGIE DE COMPIEGNE,
UNIVERSITÉ DE TECHNOLOGIE DE TROYES, UNIVERSITE DE VERSAILLES SAINT-QUENTIN-EN-YVELINES, UNIVERSITE DES
SCIENCES ET TECHNOLOGIES DE LILLE 1, UNIVERSITE EVRY VAL D'ESSONNE, UNIVERSITE PARIS 1 PANTHEON SORBONNE,
UNIVERSITE PARIS 10 NANTERRE, UNIVERSITE PARIS 7 DENIS DIDEROT, UNIVERSITE PARIS 8 VINCENNES SAINT-DENIS,
UNIVERSITE PARIS DESCARTES, UNIVERSITE PARIS EST MARNE LA VALLEE, UNIVERSITE PARIS NORD 13, UNIVERSITE PARIS
SUD 11, UNIVERSITE PAUL SABATIER TOULOUSE 3, UNIVERSITE PIERRE ET MARIE CURIE PARIS 6, UNIVERSITE SOPHIA
ANTIPOLIS
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LARGE COMPAGNIES
3S INFORMATIQUE, ADENEO, AFNOR, AFP, AIR FRANCE, AIRBUS, ALCATEL-LUCENT, ALSTOM POWER, ALSTOM TRANSPORT,
ALTAIR ENGINEERING FRANCE, ALTEN, ALTRAN, ALYOTECH TECHNOLOGIES, ANSYS, ARCELOR MITTAL, AREVA T&D, AREVA
TA, ARISEM, ATOS ORIGIN INTEGRATION, ATOS WORLDLINE, B2I AUTOMOTIVE, BERTIN TECHNOLOGIES AIX, BOUYGUES
TELECOM INITIATIVE, BULL, BUREAU VERITAS, C&K, CANBERRA, CAP GEMINI, CIMPA, CONTINENTAL AUTOMOTIVE FRANCE,
CS, DASSAULT AVIATION, DASSAULT SYSTEMES, DELPHI, DEVOTEAM, EADS ASTRIUM, EADS DEFENCE & SECURITY, EADS
DEFENSE & COMMUNICATIONS, EADS INNOVATION WORKS, EADS SECURE NETWORKS, EADS SPACE TRANSPORTATION, EDF
R&D CHATOU, EDF R&D CLAMART, EDF RENARDIERES, ELVIA PCB, ERICSSON, EUROCOPTER, EUTELSAT, FRANCE TELECOM
ISSY-LES-MOULINEAUX, FRANCE TELECOM LANNION, FRANCE TELECOM MEYLAN, FREESCALE SEMICONDUCTOR, GE
MEDICAL SYSTEMS SCS, GEMALTO, GENERALI VIE, GIE III-V LAB, GIE REGIENOV, GIMA, GROUPEMENT DES CARTES
BANCAIRES, HISPANO-SUIZA, ILOG, INEO DEFENSE, JOHNSON-CONTROLS, LHERITIER, MACHINES DUBUIT, MBDA, MESSIER
DOWTY, MORPHO, NAGRA FRANCE, NEXTER SYSTEMS, OBERTHUR TECHNOLOGIES, OKTAL, RATP, RENAULT BOULOGNEBILLANCOURT, RENAULT GUYANCOURT, RENAULT TRUCKS, RFS, SAGEM DEFENSE SECURITE, SAGEMCOM, SANEF,
SANTEOS, SFR, SMILE, SNCF, SNECMA, SODERN, SORIN CRM, STMICROELECTRONICS, STUDIEL, TDF, TELNET, THALES AIR
DEFENSE, THALES AIR SYSTEMS, THALES ALENIA SPACE, THALES AVIONICS, THALES COMMUNICATIONS, THALES
COMPUTERS, THALES OPTRONIQUE, THALES RESEARCH AND TECHNOLOGY, THALES SECURITY SYSTEMS, THALES SERVICES,
THOMSON GRASS VALLEY, TRUSTED LOGIC, UNITED MONOLITHIC SEMICONDUCTOR, VALEO BOBIGNY, VALEO CRETEIL, VALEO
LA VERRIERE, VALEO MONTIGNY-LE-BRETONNEUX, VALEO PARIS, VIRTOOLS, VISTEON
INTERMEDIATE COMPANIES
ALTIS SEMICONDUCTOR, ARC INFORMATIQUE, ARCHOS, ATERMES - APPLIC TECHN ETUDES REALIS MECAN ELEC SY, BERTIN
TECHNOLOGIES MONTIGNY, DRAKA COMTEQ, EGIDE, ESI GROUP, IMAGINE, INA, ISIS-MPP, LIGERON - SONOVISION ITEP,
M2M, MARTEC, MATHWORKS, NEOTILUS, OPEN CASCADE, OROLIA SPECTRACOM, PICOGIGA INTERNATIONAL, PROLOGUE,
SERMA INGENIERIE, SPIDCOM TECHNOLOGIES, SURLOG
INSTITUTIONS AND FUNDING ORGANISATIONS
ANR, COMMUNAUTE D'AGGLOMERATION DE CERGY PONTOISE, COMMUNAUTE D'AGGLOMERATION DE SAINT QUENTIN EN
YVELINES, COMMUNAUTE D'AGGLOMERATION DE SEINE ESSONNE, COMMUNAUTE D'AGGLOMERATION DU PLATEAU DE
SACLAY, COMMUNAUTE DE COMMUNES CŒUR DU HUREPOIX, COMMUNAUTE DE COMMUNES DE L'ARPAJONNAIS,
COMMUNAUTE DE COMMUNES VERSAILLES GRAND-PARC, CONSEIL GENERAL DE L'ESSONNE, CONSEIL GENERAL DES
HAUTS DE SEINE, CONSEIL GENERAL DES YVELINES, CONSEIL GENERAL DU VAL D'OISE, DEPARTEMENT DE PARIS, DGA,
DGCIS, DIACT, DIRECCTE ILE-DE-FRANCE, OSEO, RÉGION ILE-DE-FRANCE
287
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Last minute
FUI and Regional collaborative R&D
call for projects
ENERGY POSITIVE IT
The objective of this project is to set up an open software platform dedicated to energy services and carbon footprint management
for sustainable urban areas. It is intended to address the needs of urban and property developers, facility managers, energy service
providers as well as end-users.
Coordinator: Alstom / Partners: Bouygues, Sagem Communications, Renault, CEA, Econoving, Supélec, UVSQ, AVOB, Dotvision,
Pulse-AR, DBT, Fondaterra, Zamiren.
Call: FUI11 / Global budget: 10 615 K€ / Funding: 3 816 K€.
ILMAB : Software Infrastructure to Model and Analyse Buildings
ILMAB objective is to integrate all the aspects of the building trade business chain in a model which will allow the analysis of the life
cycle of a building (deterioration, ageing, earthquake, fire…). The result will be a tool suite allowing a digital representation of the building common to the various trades of the industry.
Coordinator: CS Communication & Systèmes / Partners: Association Léonard de Vinci, CEA, CSTB, Distene, École Normale
Supérieure de Cachan, EDF R&D, ESI Group, Eurostep, Samtech, Lafarge, NECS, Open Cascade SAS, Oxalya, Oxand Groupe, Scilab
Entreprises, Setec TPI.
Call: FUI11 / R&D budget: 7 084 K€ / Funding: Funding: 2 800 K€.
Project “P” :
Objective: To design and develop an open-source, automated code generation tool chain for the engineering of certified safety critical, hard real-time, embedded systems, including in particular multi-target, multi-domain software code generation, handling in
a coherent manner behavioral and architectural, as well as synchronous and asynchronous modeling languages, and generating software code in different programming languages.
Coordinator: Continental Automotive France S.A.S. / Partners: Rockwell Collins France, ACG-Solutions, ST Informatique Services,
Airbus Operations, Université de Bretagne, Ecole des Ponts Paris Tech, INRIA, Sagem Défense et Sécurité, Thales Avionics SA,
ONERA, Thales Alenia Space France, ABOARD Engineering, Institut National Polytechnique de Toulouse, AdaCore SAS, Astrium, Altair, Atos Origin Integration, Scilab Entreprises.
Call: FUI11 / Global budget: 9 786 K€ / Funding: 3 859 K€.
project also supported by Free & Open Source Software WG.
TELECOMS WG
IPchronos
Quality of Experience (QoE) is the key metric to monitor the realtime applications exponential development over the Net. Operators and service providers for video, voice and SaaS (Software as a Service) face imperious request from the market to provide relevant real time monitoring of the QoE at application level to enable adoption of third party services over IP network. IPchronos develop an innovative correlation
tool between QoE and QoS (Quality of Service) from the development of emerging timing capabilities over internet. The more than hundreds
times improvement in precision of the connection calibration enable to anticipate disruptions in a service resulting from communication
link overcrowding. The certification of the service provider capability will then be more reliable and less connected with network operation.
Coordinator: OROLIA SPECTRACOR / Partners: INRIA UR Rennes Bretagne, IP Label Newtest, OROLIA SPECTRACOR.
Call: FUI11 / Global budget: 670 K€ / Funding: 325 K€.
MONISOL : Smart monitoring of photovoltaic installations
Today, on a typical photovoltaic installation, each type of equipment uses a dedicated monitoring solution. Moreover the degradation of a single solar panel (e.g. dust and dirt) can significantly impact the efficiency of the whole installation.
Monisol goal is to create a supervision platform capable of monitoring all pieces of equipment but also, and more importantly, of identifying any defective element and, if necessary, of isolating it in order to maximize the overall efficiency.
This global monitoring of a photovoltaic installation and its associated centralized supervision will enable a more efficient management and therefor a faster return on investment.
Coordinator: Fleet Technology / Partners: CEA Grenoble, Fleet Technology, Greenrcos, Tenesol, Webdin.
Call: FUI11 / Global budget: 2.5 M€ / Funding: 902 K€.
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ON DEMAND
From "OnDemand Service" to "OnDemand Network": innovative approach to create "on demand" virtual networks. OnDemand equipment (such as routers) located in corporate networks could automatically switch off/on a part of the network (router, server, ...) if
not used by end users. This will reduce energy consumption and ensure constant supervision of the network status with the creation of secure virtual networks.
Coordinator: Ineovation / Partners: Ether Trust, Green Communications, Ineovation, Telecom ParisTech, Université Paris-Sud 11, UPMC.
Call: Feder5 / Global budget: 820K€ / Funding: 540 K€.
ODISEA2
Expanding the boundaries of storage clouds over to the network's edge allows IT, telecommunication infrastructures and storage
systems to converge. The ODISEA infrastructure will exploit domestic storage equipment to complement large-sized data centers
and will stage the steps to integrate storage-enhanced edge network equipment. Such an architecture will improve quality of service and user experience by storing and managing data close to the users that consume them. ODISEA proposes to (o) develop an
open architecture to federate distributed storage sites (o) develop algorithms that permit efficient and optimized usage of storage
and network resources, by distributing and placing content optimally across the participating sites (o) guarantee confidentiality and
privacy of data. Odisea will propose "Cloud storage" services, an important building block for the Future Internet.
Coordinator: France Telecom R&D / Partners: France Telecom, Technicolor R&D France, UbiStorage, Université Paris 6, Institut
Telecom, Enovance / Call: FUI11 / Budget: 4 021 K€ / funding : 1 500 K€
DéGIV : Détection et Gestion d’Incidents dans des Véhicules ferroviaires
The objective of this project is to improve both passengers comfort and safety in public transport by detecting incidents such as physical
aggressions or vandalism and by performing counting.
The project consists in developing a preindustrial prototype of an autonomous multimodal sensor combining several technologies like video
cameras, audio sensors… Associated innovative threat detection algorithms will be developed and implemented in an embedded platform.
This integrated sensor system will also have the ability to interface with other sensors already implemented in the vehicle.
Coordinator: Thales / Partners: Arkamys, CEA LIST, Duran, ERTE, Inpixal, INRETS, Eolane, Morpho.
Call: FUI11 / Global Budget: 5 200 K€ / Funding: 1 800 K€.
BUILD-IT-SAFE
Build-IT-Safe main objective is to provide to automotive industrials, both manufacturers and OEMs, the prototype of an automatic FMEA
(Failure Mode and Effects Analysis) tool that will support their risks analysis of and enable them to significantly reduce the implementation cost of the future ISO 26262 standard. The proposed solution will support an easy interface with usual system and software tools at
any phase of the development life cycle.
Coordinator: ALL4TEC / Partners: FAAR Industry - CEA LIST.
Call: Feder4 / Global budget: 1 600 K€ / Funding: 410 k€.
SIFORAS™ - SImulation pour la FORmation et l'ASsistance [training Process and on Job training]
This project aims to propose a set of methods, technologies and tools allowing a productivity gain, since the creation of educational contents until the assistance for the "on job training".
Indeed, the fast-growing in the sector of the transport and also in the sector of the automotive drive to an increase of equipments technologies and new difficult constraints of operation. All this require a high level of qualification for the staffs on the field of intervention . Needs
in strong skills have to be quickly set-up, therefore new modes of training have to be introduce. This new "training process" must be upstream adjusted then completed during the operation, and finally adapt itself to the environment and to the needs of each staffs.
Coordinator: NEXTER Training / Partners: DAF Conseil SARL, NEXTER Training, ALSTOM Transport, Renault, ENI de Brest, DeltaCAD, ENI
de Saint Etienne, CEA LSI/LVIC, DCNS, VIRTUALYS, SNCF, INSA Rennes, NEXTER Systems.
Call: FUI11 / Global Budget: 4 300 K€ / Funding: 1 800 K€.
289
Artwork/Photos:
Alstom, Alcatel-Lucent, CEA, Fotolia,
Kraemer, Renault, Sagem, Fricaudet/Thales,
All rights reserved.
24/05/11
12:36
Page 290
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www.idees-fraiches.fr
Printed on PEFC-certified paper produced
from sustainably managed forests
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PEFC/10-31-1240
FCBA/08-00890
18:47
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R&D Projects 2011
26/05/11
Parc Technologique Les Algorithmes
Bâtiment Euripide - RD 128 - 91190 SAINT-AUBIN
Phone: +33 (0)1 69 81 65 65 - Fax:+33 (0)1 69 41 69 19
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R&D Projects
2011
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