Available - EuCNC 2016

Transcription

EUNC 2015 OVERVIEW WEDNESDAY, 1 JULY 2015
ROOM BERLIOZ
MOLIÈRE
ROOM 5
ROOM 6-7
ROOM 9
ROOM 10-11
ROOM 12
KEYNOTE
SPEAKER:
09.00
10.30
Hakan Ohlsen
KEYNOTE
SPEAKER:
Alain Maloberti
10.30
11.00
14:30
16:00
EXHIBITIONS DEMOS
12:30
14:00
14:00
14:30
SPS06
(FOYER DEBUSSY AND HALL MENAND)
11.00
12.30
COFFEE BREAK (FOYER DEBUSSY AND HALL MENAND)
5G for Vertical
Industries
6th Usage Areas
SPS05
Performance
Analysis
of Multi-User
Communication
Systems
PHY03
WIN05
Information
Theory & Coding
Quality of Service
TER02
Testbed and
Experimental
Research 2
PANEL2
IoT, 5G, Big Smart
Data Interplay - The
Convergence and
Integration of Mobile
Communications,
Internet, and Big
Data Processing
Introducing THE
5G-INFRASTRUCTURE - PPP
- Launching the
European 5G
Initiative - Part I
SPS07
COST Highlight
- Optimal End-toEnd Multimedia
Communication
20.00
23.00
PHY04
Next Generation
Networking
OPN02
Optical Networks
EXHIBITIONS DEMOS
ROOM BERLIOZ
13.30
14.30
WIN06
SPS08
Interference
Management
Opportunistic and
Cooperative
Communications
APS02
Wireless
Networks
CONFERENCE DINER - BATEAUX-MOUCHES® CRUISE IN PARIS
EUNC 2015 OVERVIEW
12:30
13:30
5G Mobile
Networks
16:30
18:00
11.00
12.30
NET02
POS02: POSTER SESSION 2 ( FOYER DEBUSSY)
SPS09
10.30
11.00
Software Defined
Networks and
Cloud-RAN II
STANDING BUFFET LUNCH (FOYER DEBUSSY AND HALL MENAND)
16:00
16:30
09.00
10.30
WIN04
SPS10
Introducing
THE 5G-INFRASTRUCTURE-PPP
- Launching the
European 5G
Initiative - Part II
MOLIÈRE
SPS11
Celtic-Plus
Perspectives of
Network Softwarisation as a 5G
Enabler
THURSDAY, 2 JULY 2015
ROOM 5
ROOM 6-7
ROOM 9
PHY05
WIN07
WIN08
Selected Areas in
Communications
Relay
and Multihop
Networks
Cognitive Radio
ROOM 10-11
NET03
Information
Centric Networks
PANEL3
Optical Networks
The key technology
For enabling the
deployement of
global ICT accross
society
CLOSING
SESSION
STANDING
BUFFET
LUNCH
(FOYERDEBUSSY
DEBUSSYAND
ANDHALL
HALLMENAND)
MENAND)
STANDING
BUFFET
LUNCH
(FOYER
http://www.eucnc.eu
Organised by:
ROOM 12
APS03
Traffic Modeling
and Security
EUNC 2015 OVERVIEW MONDAY, 29 JUNE 2015
ROOM 4
W03
09.00
10.30
Next Generation
Public Safety
and Critical
Infrastructures
ROOM 5
ROOM 6 - 7
T01
W01
Emerging Topics
in Small-Cell
Networks: Evolution Towards
5G Solutions
Joint CLEEN
and ACROSS
Workshop on
Cloud Technology and Energy
Efficiency in
Mobile Communications
10.30
11.00
Next Generation
Public Safety
and Critical
Infrastructures
T01
W01
Emerging Topics
in Small-Cell
5G Solutions
Joint CLEEN
and ACROSS
Workshop on
Efficiency in
12.30
14.00
14.00
15.30
W07
State-of-the-
W01
W03
Next Generation Joint CLEEN
Public Safety
and Critical
Infrastructures
Art Research
Results in Green
and Energy Efficient Communications for the
Telecommunication Networks of
Tomorrow
W07
State-of-the-
and ACROSS
Workshop on
Cloud Technology
and Energy Efficiency in Mobile
Communications
Next Generation
Public Safety
and Critical
Infrastructures
W01
Joint CLEEN
and ACROSS
Workshop on
Cloud Technology
Communications
ROOM BERLIOZ
KEY DATES
5 Feb. 2016
Paper submission deadline
8 Apr. 2016
Notification of acceptance
Citizens
Engagement
to the IoT:
Security
and Privacy
Challenges
W02
Workshop
on 5G Testbeds
and Hands On Experimental
Research.
W05
Workshop
on Network
Function
Virtualization
and
Programmable
Networks
WWRF
Workshop A Business
and Enterprise
Perspective on
the Upcoming
5G Era
W06
Citizens
Engagement
to the IoT:
Security
and Privacy
Challenges
W02
Workshop
on 5G Testbeds
Research.
T02
Energy Ma-
nagement for
5G Networks:
Self-Sustainability and Energy
Recycling
W09
Workshop on
Optical Back/
Front-Hauling
Technologies
for Future 5G
Network
W04
Workshop
on Network
Function Virtualization and
Programmable
Networks
W10
Radio Access
W08
Massive MIMO
W02
Workshop on
W10
W08
W02
and Spectrum Cluster
Workshop
Workshop From Fascinating Theory to
Amazing Proven
Concept
5G Testbeds
and Hands-On
Experimental
Research.
T02
Energy Management for
5G Networks:
Recycling
W09
Workshop on
Optical Back/
Front-Hauling
Technologies
for Future 5G
Network
MOLIÈRE
ROOM 5
W04
Workshop
on Network
Programmable
Networks
Radio Access
Workshop
Massive MIMO
Amazing Proven
Concept
Workshop on
5G Testbeds
and Hands-On
Experimental
Research.
TUESDAY, 30 JUNE 2015
ROOM 6-7
ROOM 9
ROOM 10-11
ROOM 12
EXHIBITIONS DEMOS
SPS02
European
Platforms and
Facilities for
Experimentation
towards 5G
SPS01
Reducing Internet
Latency
Final paper submission
18:00
19:30
Wireless
Communications
WIN01
Testbeds and
Deployment
WIN02
Software Defined
Networks and
Cloud-RAN I
NET01
SDN and IP
Networks
OPN01
Optical
Communication
Systems and
Technologies
PANEL1
5G requirements From Technology
to Verticals
Use Cases: How
New mmWaves
Technologies
Can Lead to an
Immersive User
Experience
16:30
18:00
PHY01
SPS04
SPS03
5G Scenarios and
22 Apr. 2016
W06
Tod Sizer
10.30
11.00
16:00
16:30
WWRF
Workshop A Business
and Enterprise
Perspective on
the Upcoming
5G Era
ROOM 12
OPENING
SESSION
KEYNOTE
SPEAKER:
09.00
10.30
14:30
16:00
W05
Workshop
on Network
Function
Virtualization
and
Programmable
Networks
W04
Art Research
Results in Green
Tomorrow
EUNC 2015 OVERVIEW
12:30
14:00
14:00
14:30
W04
ROOM 11
COFFEE BREAK (FOYER DEBUSSY)
W03
11.00
12.30
ROOM 10
STANDING BUFFET LUNCH (FOYER DEBUSSY)
15.30
16.00
16.00
17.30
ROOM 9
W03
11.00
12.30
ROOM 8
QoS/QoE
Monitoring and
Management
with SDN
PHY02
Communication
Theory & Fading
TER01
Testbed and
Experimental
Research 1
WIN03
Radio Resource
Management
WELCOME RECEPTION (FOYER DEBUSSY AND HALL MENAND)
APS01
Cloud
Computing
TABLE OF CONTENTS
MESSAGE FROM
THE GENERAL CHAIR
04
MESSAGE FROM THE TECHNICAL
PROGRAM COMMITTEE CHAIR
STEERING COMMITTEE
TPC CHAIRS & TRACK CO-CHAIRS
06 07
TECHNICAL PROGRAM
COMMITTEE
08 11
OPENING SESSION
& KEYNOTE SPEAKERS
12 13
PANELS
14 15
TECHNICAL SESSIONS
& SPECIAL SESSIONS
16 25
POSTERS
26 27
WORKSHOPS
28 37
TUTORIALS
38
39
EXHIBITION
40 48
CLOSING SESSION
05
51
SOCIAL PROGRAM
50
GENERAL INFORMATION
PATRONS
52 53
EXHIBITION MAPS
54
OVERVIEW
56 57
LIST OF EXHIBITORS
55
LEXICON
PHY WIN OPN NET APS TER SPS POS PHYSICAL LAYER AND FUNDAMENTALS
WIRELESS NETWORKS
OPTICAL NETWORKS
NETWORKING
APPLICATIONS AND SERVICES
TESTBEDS AND EXPERIMENTAL RESEARCH
SPECIAL SESSION
POSTER SESSION
3
MESSAGE FROM THE GENERAL CO-CHAIRS
NICOLAS
DEMASSIEUX
MARIO
CAMPOLARGO
GENERAL
CO-CHAIR
EUCNC 2015
GENERAL
CO-CHAIR
EUCNC 2015
Welcome to the European Conference on Networks and Communications (EuCNC 2015)!
This 24th edition will be hosted in the Palais des Congrès of Issy les Moulineaux, close to Paris. Once
again, this conference will be a cornerstone event for research in advanced networks and connected
devices, with multiple exciting sessions, workshops, demonstrations as well as an outstanding social
program.
EuCNC brings together worldwide research and innovation community in the strategic domain of
communication networks and systems, reaching to services and applications. In the era of the global
challenges of the digital age, Europe has to be ready to use the great opportunities offered by digital
technologies.
“5G, Shaping the Vision” will be the conference motto this year, 5G being the platform supporting
the digitisation of our economic and societal activities, giving the opportunity to reinvent telecom
industrial landscape in Europe and beyond. Over the last 18 months 5G has greatly accelerated.
Along this line, the European industry has now proposed its vision (http://5g-ppp.eu/roadmaps/) on
5G business drivers, requirements, roadmap, design principles and key technologies, while the first
set of 5G PPP projects has been selected. Experimentation and demonstrations, proof of concepts
are now gaining momentum and will become important activities over the next years. They will be
instrumental to support key upcoming milestones, such as 5G technical standardisation activities soon to start by the end of 2015 and the World Radio Conference of 2015 and 2019, with critical impact on spectrum requirements and allocation to the Mobile Services. These will have to reflect the current trends, where 5G infrastructures will also need to involve vertical markets such
as automotive, energy, food and agriculture, city management, government, healthcare, manufacturing or public transportation. These efforts will also boost networks and Internet architectures
in areas such as the Internet of Things (IoT). 5G and IoT will be strategic elements to enable and
drive the Digital Single Market (DSM) through new products and services. The conference will provide insight and results from EU funded research and innovation at the leading edge of these global
developments.
We wish you a very fruitful and enjoyable EUCNC 2015. Enjoy Paris!
Nicolas DEMASSIEUX
4
Mario CAMPOLARGO
MESSAGE FROM THE TECHNICAL PROGRAM COMMITTEE CHAIR
HIKMET
SARI
TECHNICAL PROGRAM
COMMITTEE CHAIR
EUCNC 2015
On behalf of the Technical Program Committee, it is a great pleasure to welcome
you to the 2015 European Conference on Networks and Communications (EuCNC
2015), Paris, 29 June - 2 July 2015. Following the 2014 edition in Bologna, the main
part of the technical program is organized in 6 tracks: Track 1 - Physical Layer and
Fundamentals (PHY), Track 2 – Wireless Networks (WIN), Track 3 - Optical Networks
(OPN), Track 4 - Networking (NET), Track 5 - Applications and Services (APS), and
Testbeds and Experimental Research (TER). A total of 226 papers were submitted
to these tracks, and after a rigorous review process, 110 papers were accepted for
inclusion in the conference program. With respect to the previous edition, EuCNC
2015 had the ambition to go global, and we were successful in attracting submissions from regions outside Europe including Asia-Pacific, the Middle-East and Africa, North America, and Latin America. From the submitted 226 papers, 51 of them
actually did not have a single author from Europe, witnessing the global dimension
achieved.
This conference features 34 technical sessions with oral presentations and 2 poster
sessions disseminating the latest research results in communications and networking as well as 3 panels in which industry leaders will address technical and business challenges and give their vision on future trends. In parallel, the conference
program includes a rich exhibition primarily showcasing the research results from
European projects. Prior to the start of the technical sessions, panels, and exhibition, which are scheduled from Tuesday 30 June to Thursday 2 July, the program
includes 2 tutorials, 4 full-day workshops, and 6 half-day workshops on Monday, 29
June.
The Opening Plenary on Tuesday features Dr. Theodore Sizer, Vice President of the
Wireless Research Program at Bell Laboratories, as keynote speaker. We also have
two other distinguished keynote speakers on Wednesday morning: Håkan Ohlsén,
Director, Spectrum and Radio Technology Strategy, Ericsson, and Alain Maloberti,
Senior Vice President Networks, Orange Labs. I am delighted to have this set of prominent keynote speakers, who will add a special touch to the conference program.
It is a privilege to have Paris as host city for EuCNC 2015. The conference venue
is the Palais des Congrès – Issy Les Moulineaux, on Metro Line 12 providing easy
access to all attractions of this magnificent city. Conference attendees will enjoy
Paris and the exciting social program which has been prepared by the organizing
committee to make their stay memorable.
Welcome to Paris and enjoy EuCNC 2015.
Hikmet SARI
5
STEERING COMMITTEE / TPC CHAIRS AND TRACK CO-CHAIRS
GENERAL CO-CHAIRS
NICOLAS
DEMASSIEUX
ORANGE
FRANCE
STEERING COMMITTEE CHAIRS
MÁRIO
CAMPOLARGO
EC
BELGIUM
LUIS
M. CORREIA
(CHAIR)
IST – UNIV.
LISBON
PORTUGAL
BERNARD
BARANI
(VICE-CHAIR)
EC
BELGIUM
STEERING COMMITTEE MEMBERS
6
HENRIK
ABRAMOWICZ
ERICSSON
SWEDEN
RUI
L. AGUIAR
UNIV.
AVEIRO
PORTUGAL
DIDIER
BOURSE
ALCATELLUCENT
FRANCE
PETRONELA
BURCEAG
EC
BELGIUM
NARCIS
CARDONA
UNIV. POLI.
VALENCIA
SPAIN
NICOLAS
CHUBERRE
THALES
ALENIA
FRANCE
NICOLAS
DEMASSIEUX
ORANGE
FRANCE
PANAGIOTIS
DEMESTICHAS
UNIV.
PIREAUS
GREECE
PAVLOS
FOURNOGERAKIS
EC
BELGIUM
DIEGO
LOPEZ
TELEFONICA
SPAIN
JACQUES
MAGEN
INTERINNOV
FRANCE
WERNER
MOHR
NSN
GERMANY
JORGE
PEREIRA
EC
BELGIUM
HIKMET
SARI
SUPELEC
FRANCE
DIMITRA
SIMEONIDOU
UNIV.
BRISTOL
UNITED
KINGDOM
DAVID
SOLDANI
RALPH
STUEBNER
ROBERTO
VERDONE
COST
OFFICE
BELGIUM
UNIV.
BOLOGNA
ITALY
OVIDIU
VERMESAN
SINTEF
NORWAY
HUAWEI
GERMANY
TECHNICAL PROGRAM COMMITTEE
TPC CHAIR
SPECIAL SESSIONS CO-CHAIRS
HIKMET SARI
SUPELEC
FRANCE
ANDREAS
POLYDOROS
IASA
GREECE
TRACK CO-CHAIRS
MARIOS
KOUNTOURIS
SUPELEC
FRANCE
WORKSHOPS CO-CHAIRS
TONY
Q. S. QUEK
SUTD
SINGAPORE
PHYSICAL LAYER AND FUNDAMENTALS
ANA
GARCIA
ARMADA
UC3M
SPAIN
LI-CHUN
WANG
NCTU
HSINCHU
TAIWAN
WIRELESS NETWORKS
STEFANO
BREGNI
POLITECNICO
DI MILANO
ITALY
HANNA
BOGUCKA
PUT
POLAND
AFIF
OSSEIRAN
ERICSSON
SWEDEN
GUILLAUME
VIVIER
SEQUANS
FRANCE
PANELS CO-CHAIRS
CARLES
ANTONHARO
CTTC
SPAIN
DIDIER
BOURSE
ALCATELLUCENT
FRANCE
PUBLICATIONS CHAIR
TAREK
EL-BAWAB
JSU
JACKSON
USA
EJDER
BASTUG
SUPELEC
FRANCE
OPTICAL NETWORKS
KOSTAS
SAMDANIS
NEC LABS
EUROPE
GERMANY
MIKE
DEVETSIKIOTIS
NCSU
RALEIGH
USA
NETWORKING
JOEL
RODRIGUES
UNIV.
BEIRA INT.
PORTUGAL
NELSON
FONSECA
UNICAMP
BRAZIL
LOCAL ORGANISING COMMITTEE
BÉATRICE
VALDAYRON
C2B
CONGRESS
FRANCE
CAROLINE
ZAGO
C2B
CONGRESS
FRANCE
APPLICATIONS AND SERVICES
RAYMOND
KNOPP
EURECOM
FRANCE
MAXIME
GUILLAUD
HUAWEI
TECHNOLOGIES
FRANCE
TESTBEDS AND EXPERIMENTAL RESEARCH
7
TECHNICAL PROGRAM COMMITTEE
TPC MEMBERS
PHYSICAL LAYER AND FUNDAMENTALS (PHY)
AlexandropoulosGeorge
Huawei Technologies Co. Ltd.
AlexiouAngeliki
University of Piraeus
AlfanoGiuseppa
Politecnico di Torino
Anadiotis
Angelos- Christos G.CNIT
BacciGiacomo
University of Pisa
BellangerMauriceCNAM
BergVincent
CEA LETI
BettstetterChristian
University of Klagenfurt
BoguckaHanna
Poznan University of Technology
BourseDidier
Alcatel Lucent
BuracchiniEnrico
Telecom Italia Lab
ChaeChan-Byoung
Yonsei University
ChatzinotasSymeon
University of Luxembourg
ChoiWanKAIST
D’ErricoRaffaele
CEA, LETI, Minatec Campus
Didier
Le Ruyet
Electronics and Communication Laboratory
DinisRui
Faculdade de Ciências e Tecnologia, Univ. Nova de Lisboa
Feki
Afef
France Research Center, Huawei Technologies
FerranteGuido
Sapienza University of Rome
GuanZhangyu
State University of New York at Buffalo
Hong
Yao-Win Peter
National Tsing Hua University
HuangKaibin
Dept. of Electrical and Electronic Engineering, Univ. of Hong Kong
JiangChunxiao
Tsinghua University, Beijing
JiangTao
Huazhong University of Science and Technology
Jin
Shi
Southeast University
JorswieckEduard
TU Dresden
JoungJingon
Institute for Infocomm Research
KanatasAthanasios
KountourisMarios
Huawei Technologies
KrikidisIoannis
University of Cyprus
KténasDimitriCEA
Lee
Jemin
Singapore University of Technology and Design (SUTD) Liu
Chun-Hung
National Chiao Tung University
LuiseMarco
University of Pisa
Ma
Shaodan
University of Macau
ManikasAthanassios
Imperial College London
MasoMarco
Mathematical and Algorithmic Sciences Lab, Huawei France Research Center MasourosChristos
University College London
MatthaiouMichail
Queen’s University Belfast
Monir Vaghefi
Reza
Virginia Tech
MorosiSimone
University of Florence - CNIT
OhtsukiTomoaki
Keio University
PayaróMiquelCTTC
PiemonteseAmina
University of Parma
PolitisChristos
Kingston University
PolydorosAndreas
University of Athens
Quek
Tony Q. S.
Singapore University of Technology and Design
RenforsMarkku
Tampere University of Technology
RosatiStefanoEPFL
SanguinettiLuca
University of Pisa
ShanHangguan
Zhejiang University
ShenYuan
Tsinghua University
Shin
Hyundong
Kyung Hee University
Shin
Yoan
Soongsil University
Sun
Sumei
Institute for Infocomm Research
WangFanggang
Beijing Jiaotong University
WangGongpu
Beijing Jiaotong University
WangHui-Ming
Xi’an Jiaotong University
WangJueSUTD
WangXijun
Xidian University
Wu
Gang
University of Electronic Science and Technology of China
WunderGerhardHeinrich-Hertz-Institut
Xia
Minghua
INRS, University of Quebec
YangGang
Nanyang Technological University
ZhangJun
The Hong Kong University of Science and Technology
ZhangWenyi
University of Science and Technology of China
ZhaoZhongyuan
Beijing University of Posts and Telecommunications P.R. ZhongCaijun
Zhejiang University
ZhongYi
ZhouQingfeng
Hefei University of Technology
ZhouSheng
Tsinghua University
ZhouXiangyun
The Australian National University
8
Greece
Greece
Italy
Italy
Italy
France
France
Austria
Poland
France
Italy
Korea
Luxemburg
Korea
France
France
Portugal
France
Italy
USA
Taiwan
Hong Kong
P.R. China
P.R. China
P.R. China
Germany
Singapore
Greece
France
Cyprus
France
Singapore
Taiwan
Italy
P.R. China
United Kingdom
France
United Kingdom
United Kingdom
USA
Italy
Japan
Spain
Italy
United Kingdom
Greece
Singapore
Finland
Switzerland
Italy
P.R. China
P.R. China
Korea
Korea
Singapore
P.R. China
P.R. China
P.R. China
Singapore
P.R. China
P.R. China
Germany
Canada
Singapore
Hong Kong
P.R. China
China
P.R. China
P.R. China
P.R. China
P.R. China
Australia
WIRELESS NETWORKS (WIN)
BanchsAlbert
Universidad Carlos III de Madrid
BernardoLuis
Universidade Nova de Lisboa
BockCarlos
Fundació i2CAT, Internet i Innovació Digital a Catalunya
BourseDidier
Alcatel Lucent
CasacaAugusto
Instituto Superior Técnico in Lisbon
CasadevallFerran
Universitat Politècnica de Catalunya
ChangDah-Chung
National Central University
ChatzimisiosPeriklis
Alexander TEI of Thessaloniki
ChenJen-Yeu
National DongHwa University
DaSilvaLuiz
Trinity College
DemestichasPanagiotis
DinisRui
Faculdade de Ciências e Tecnologia, University Nova de Lisboa
FengKai-Ten
Fernandez-GetinoGarcia
Maria Julia
University Carlos III of Madrid
FerrúsRamon
GameiroAtílio
Instituto de Telecomunicações / Universidade de Aveiro
Garcia Armada
Ana
Gau
Rung-Hung
Gil Jiménez
Víctor
University Carlos III of Madrid
GiupponiLorenza
Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)
GriloAntónio
Inesc/ IST
HollandOliver
King’s College London
IacobelliLorenzoThales
KafetzakisEmmanouil
NCSR Demokritos
KuipersBerend
Instituto Superior Tecnico
Liu
Chuan-Ming
National Taipei University of Technology
Liu
Chun-Hung
Liu
Wei-Cheng
National Chung Cheng University
LorenzoBeatriz
University of Vigo
MoessnerKlaus
University of Surrey
MohrWerner
Nokia Siemens Networks
MolinaroAntonella
University Mediterranea of Reggio Calabria
PapadimitriouDimitriAlcatel-Lucent
PintoPaulo
Universidade Nova de Lisboa
RosiniRamona
DEI - University of Bologna
SallentOriol
Sánchez-FernándezMatilde
SargentoSusana
Instituto de Telecomunicações, Universidade de Aveiro
TarchiDaniele
University of Bologna
TsagkarisKostas
VelezFernando
University of Beira Interior
VerikoukisChristos
Telecommunications Technological Centre of Catalonia
WangKuochen
WangLi-Chun
Spain
Portugal
Spain
France
Portugal
Spain
Taiwan
Greece
Taiwan
Ireland
Greece
Portugal
Taiwan
Spain
Spain
Portugal
Spain
Taiwan
Spain
Spain
Portugal
United Kingdom
France
Greece
Portugal
Taiwan
Taiwan
Taiwan
Spain
United Kingdom
Germany
Italy
Belgium
Portugal
Italy
Spain
Spain
Portugal
Italy
Greece
Portugal
Spain
Taiwan
Taiwan
OPTICAL NETWORKS (OPN)
BoffiPierpaolo
Politecnico di Milano
BregniStefano
CallegatiFranco
Universita` di Bologna
CankayaHakki
Fujitsu Network Communications
CerroniWalter
CuginiFilippoCNIT
EffenbergerFrank
Huawei Technologies
El-BawabTarek
Jackson State University
ElmirghaniJaafar
University of Leeds
Jue
Jason
University of Texas at Dallas
KamalAhmed
Iowa State University
Masip-BruinXavier
RouskasGeorge
North Carolina State University
ShamiAbdallah
The University of Western Ontario
SivalingamKrishna
Indian Institute of Technology Madras
SomaniArun
Iowa State University
SpadaroSalvatore
Universitat Politecnica de Catalunya (UPC)
TornatoreMassimo
TzanakakiAnna
University of Bristol
ValcarenghiLuca
Scuola Superiore Sant’Anna
VokkaraneVinod
University of Massachusetts Lowell
WosinskaLena
KTH Royal Institute of Technology
Zhu
Zuqing
Italy
Italy
Italy
USA
Italy
Italy
USA
USA
United Kingdom
USA
USA
Spain
USA
Canada
India
USA
Spain
Italy
United Kingdom
Italy
USA
Sweden
P.R. China
9
NETWORKING (NET)
AguiarRui
University of Aveiro
AkyamacAhmet
Bell Labs, Alcatel-Lucent
AlonistiotiNancy
BanchsAlbert
Bayram
Islam Safak
Qatar Environment and Energy Research Institute
BernardosCarlos
CampsDanieli2CAT
De Domenico
Antonio
CEA-LETI Minatec
DemestichasPanagiotis
DevetsikiotisMichael
North Carolina State University
Di Girolamo
MarcoHP
FriderikosVasilis
GiordanoStefano
University of Pisa
KallitsisMichael
University of Michigan
KantarciBurak
Clarkson University
KsentiniAdlen
University of Rennes 1 / IRISA Lab
KunzAndreas
NEC Europe Ltd.
LopezDiego
Telefonica I+D
LundqvistHenrik
Huawei Technologies
MahmoodiToktam
ManzaliniAntonio
Telecom Italia
NalatwadSrikant
EMC Corporation
OberleKarsten
Alcatel-Lucent Bell Labs
OechsnerSimon
NEC Laboratories Europe
PapapanagiotouIoannis
Purdue University
PolitisChristos
Kingston University
RedanaSimone
Nokia Siemens Networks
Rost
Peter
NEC Laboratories Europe
SamdanisKonstantinos
NEC Europe Ltd.
VerikoukisChristos
Telecommunications Technological Centre of Catalonia
WübbenDirk
University of Bremen
Portugal
USA
Greece
Spain
Qatar
Spain
Spain
France
Greece
USA
Italy
United Kingdom
Italy
USA
USA
France
Germany
Spain
Sweden
United Kingdom
Italy
USA
Germany
Germany
USA
United Kingdom
Germany
Germany
Germany
Spain
Germany
APPLICATIONS AND SERVICES (APS)
ArvidssonÅkeEricsson
BekerSergio
DOCOMO Euro-Labs
BellavistaPaolo
BirkosKonstantinos
University of Patras
CanonicoRoberto
University of Napoli Federico II
CaviglioneLuca
National Research Council (CNR)
ChatzimisiosPeriklis
Alexander TEI of Thessaloniki
ChenKuan-Ta
Academia Sinica
CorreiaNoelia
University of Algarve
CruzLuís
Instituto de Telecomunicacoes / University of Coimbra
da Silva
Ana Paula
Universidade Federal de Minas Gerais
DebonoCarl
University of Malta
FerrettiStefano
Fonseca
Nelson L. S. da
State University of Campinas
GarroppoRosario
University of Pisa
Ghamri-DoudaneYacine
University of la Rochelle
GiordanoStefano
University of Pisa
GomesAbel
Universidade da Beira Interior
HoßfeldTobias
University of Duisburg-Essen
JammehEmmanuel
University of Plymouth
KonorskiJerzy
Gdansk University of Technology
Kos
Andrej
University of Ljubljana
LecuireVincent
CRAN, Universite de Lorraine, CNRS
Li
Shujun
University of Surrey
LloretJaime
Universidad Politecnica de Valencia
LorenzPascal
University of Haute Alsace
10
Sweden
Germany
Italy
Greece
Italy
Italy
Greece
Taiwan
Portugal
Portugal
Brazil
Malta
Italy
Brazil
Italy
France
Italy
Portugal
Germany
United Kingdom
Poland
Slovenia
France
United Kingdom
Spain
France
Maddali
Bala Krishna
MagedanzThomas
MarcheseMario
MatijasevicMaja
MinervaRoberto
NogueiraAntónio
ObrejaSerban
PapadimitriouPanagiotis
RodriguesJoel
SantosAlexandre
SargentoSusana
Skorin-KapovLea
SolerJose
van den Berg
Hans
Xu
Changqiao
ZeadallySherali
Guru Gobind Singh Indrasprastha University
Fraunhofer Institute FOKUS / TU Berlin
DIST- University of Genoa
University of Zagreb
Telecom Italia
University of Aveiro/Instituto de Telecomunicações
University Politehnica of Bucharest
Leibniz Universität Hannover
Instituto de Telecomunicações, University of Beira Interior
University of Minho
Instituto de Telecomunicações, Universidade de Aveiro
University of Zagreb
Technical University of Denmark
University of Twente
Beijing University of Posts and Telecommunications
University of Kentucky
India
Germany
Italy
Croatia
Italy
Portugal
Romania
Germany
Portugal
Portugal
Portugal
Croatia
Denmark
The Netherlands
P.R. China
USA
TESTBEDS AND EXPERIMENTAL RESEARCH (TER)
AyaduraiVicknesan
Ericsson Research
BartzoudisNikolaosCTTC
CardosoLeonardo
Université de Lyon
DabrowskiJerzy
Linkoping University
DagresIoannis
DardariDavide
DuarteMelissaHuawei
FerreiraLúcio
INOV-INESC & IST - University of Lisbon
GuillaudMaxime
Huawei Technologies
GuptaRohit
National Instruments
KaltenbergerFlorianEurecom
KnoppRaymond
Institut Eurecom
MoghadamNima
ACCESS Linnaeus Center, KTH Royal Institute of Technology
PayaróMiquelCTTC
RuppMarkus
TU Wien
ZetterbergPer
KTH Royal Institute of Technology
Sweden
Spain
France
Sweden
Greece
Italy
France
Portugal
France
Germany
France
France
Sweden
Spain
Austria
Sweden
11
5G - ENABLING A WORLD
WHERE ALL COMMUNICATION IS WIRELESS
OPENING SESSION & KEYNOTE SPEAKER
09:00-10:30
ROOM BERLIOZ
OPENING AND WELCOME ADDRESSES BY:
HIKMET SARI
SUPELEC FRANCE, TECHNICAL PROGRAM CHAIR
NICOLAS DEMASSIEUX
ORANGE LABS, FRANCE, GENERAL CO-CHAIR
MARIO CAMPOLARGO
EUROPEAN COMMISSION, BELGIUM, GENERAL CO-CHAIR
KEYNOTE SPEAKER:
THEODORE (TOD) SIZER
VP WIRELESS RESEARCH,
BELL LABS,
ALCATEL-LUCENT, USA
Abstract:
Biography:
Dr. Theodore (Tod) Sizer is Vice President of the Wireless Research Program
in Bell Laboratories. In this role he leads teams in six worldwide locations
innovating in all aspects of wireless systems, technology and software. During his tenure at Bell Labs he has performed research in Wired and Wireless
Home Networking, Fixed Wireless Loop systems, Video Watermarking technologies, Optical Computing and Switching Systems, and High Power Laser
Design. He was a member of the technical team in Lucent’s role as a promoter in the Bluetooth Special Interest Group (SIG). His responsibilities in the
SIG included being Chair of the Coexistence Working Group. Tod graduated
from Amherst College, Magna Cum Laude and received his Masters and
Doctorate from the Institute of Optics at the University of Rochester. In 2007
Tod was named a Bell Labs Fellow “For sustained creative contributions to
wireless systems, particularly in the convergence of packet and wireless
technologies” and in 2012 was named a Fellow of WWRF. In 2011 he won
the Popular Science Breakthrough Award for his invention of the lightRadio
cube. He is the author of 51 US patents, over 50 refereed publications and
is a member of the IEEE and OSA.
A decade ago, it was still deemed a bit of a luxury to have wireless coverage and connection. Today it is expected, whether we are at home, at work, or
out and about. A decade from now, when 5G is fully deployed, all communication will be wireless with 100% coverage to our personal mobile devices
as well as the machines which will inform and support our lives. For those of us working to enable this vision there are three key challenges to address.
The first is end-to-end performance. If a wireless link is the only way that one connects to their world, then this needs to meet the user’s expectations,
every time, and everywhere. Second, we have wireless solutions today that work well for voice applications and high speed data download such as
video and file transfers. However, the world is much more than just these two applications, as important as they are. So 5G solutions will need to be
far more flexible to support myriad applications, some that I can describe to you today (like Internet of Things) as well as those I cannot, because they
haven’t been invented yet. Third, we need to provide increased capacity and network adaptation technologies to give the impression of infinite capacity. Infinite capacity is, of course, impossible, however if one understands what the expectations are for an application on a mobile device and adapt
the network to meet these expectations for data rate, latency, and responsivity, then the user (or machine) has the perception of a connection with
infinite capacity. In my presentation I will expand upon these challenges, and talk about some of the ways we are addressing these in our research.
12
SPECTRUM CHALLENGES FOR MOBILE BROADBAND
TOWARDS 2020 AND BEYOND
KEYNOTE SPEAKER:
HÅKAN OHLSÉN
DIRECTOR,
SPECTRUM
AND RADIO
TECHNOLOGY
STRATEGY,
ERICSSON,
VIETNAM
09:00-10:30
ROOM BERLIOZ
Biography:
Håkan Ohlsén received his Ph.D. degree in Solid State Physics from Uppsala
University, Sweden, in 1986. He was appointed as an Associate Professor at
Uppsala University in 1990, and he has around 50 scientific publications
in various fields. He joined Ericsson, Sweden, early in the year of 1995
and worked with radio interfaces for the 3rd Generation/IMT-2000 mobile
systems and spent three years at the Ericsson office in Japan participating
in the early standardization of WCDMA as well as in the set-up of 3GPP in
ARIB delegation. Since 1999, he has been at the Ericsson Headquarters
with focus on access standardization strategies. In 2004, he was elected
Vice-Chairman of the ITU group responsible for IMT and its evolution (today
WP5D). Currently, Håkan Ohlsén is Director, Spectrum and Radio Technology Strategy in the Ericsson Group Function Technology, and is based at the
Ericsson Hanoi office.
KEYNOTE SPEAKERS
WEDNESDAY, 1 JULY 2015
Abstract:
The fast uptake of traffic on mobile broadband networks, together with the ever increasing consumer demands for advanced services, is calling
on the full attention by the policy makers of the world. This year in November, the ITU WRC-15 will decide on identifications of spectrum for
mobile broadband services up to year 2020. WRC-15 will also decide on new agenda items for WRC-19, possibly including an agenda item for
the next generation mobile communications - 5G or “IMT-2020” - and to perform technical studies in the next study period on spectrum beyond
2020.
PROVIDING A UNIQUE USER EXPERIENCE THANKS TO 5G
KEYNOTE SPEAKER:
ALAIN MALOBERTI
SENIOR VICE
PRESIDENT
NETWORKS,
ORANGE LABS
NETWORKS,
FRANCE
09:00-10:30
ROOM BERLIOZ
Biography:
Alain Maloberti graduated from Ecole Polytechnique (Paris, 1977) and from
Ecole Nationale Supérieure des Télécommunications (Télécom Paris, 1979). He
joined France Telecom in 1979, and has been involved since 1983 on studies
and development of digital cellular networks, notably as chairman of the technical committee SMG2 of ETSI (definition of the radio aspects of the GSM system)
from 1985 to 1995. He was Director of the Technical Development of the France
Telecom mobile network in France from 1994 to 2003, when he became, at the
corporate level of the Orange Group (mobile subsidiary of the France Telecom
Group), in charge of the development of networks. In 2006, mobile and fixed
operations of the FT Group where merged both at national and corporate level,
and Alain Maloberti is currently Senior VP, Orange Labs Networks, for fixed,
broadband and mobile networks of Orange Group.
Abstract:
5G will not only provide a tremendous improvement of wireless networks capacity. It should first help to enhance the experience of our customers where and when it matters. This keynote will start from covering the need to have a consistent experience in daily life situations such as
being at the border of a cell or in a high environmental quality building stopping radio waves, switching between different wireless technologies,
or travelling in a high speed train. It will also give an overview of the specificities of connected objects user experience, especially the issues
around energy management. Then, it will rapidly go through new emerging trends around personalization and adaptation of network performance to end user services. This vision will only be possible if we consider end-to-end system aspects beyond radio. We will conclude by a
discussion on such system aspects like Network Function Virtualization and the related operational challenges.
13
P1
5G REQUIREMENTS - FROM TECHNOLOGY TO VERTICALS
PANELS
14:30 -16:00
ROOM BERLIOZ
ORGANIZER/MODERATOR:
ANGELIKI ALEXIOU,
UNIVERSITY OF PIRAEUS, GREECE
PANELISTS:
LUKE IBBETSON,
HEAD OF RESEARCH AND DEVELOPMENT,
VODAFONE GROUP, UNITED KINGDOM
BENJAMIN SARDA,
HEAD OF MARKETING,
ORANGE HEALTHCARE, FRANCE
MARKUS DILLINGER,
DIRECTOR FOR INDUSTRY COMMUNICATIONS
IN SMART GRID, HUAWEI, GERMANY
HAMID AGHVAMI,
PROFESSOR, CENTRE FOR TELECOMMUNICATIONS
RESEARCH, KING’S COLLEGE LONDON, UK
TAKEHIRO NAKAMURA,
5G MOBILE COMMUNICATION
PROMOTION FORUM (5GMF), JAPAN
Abstract:
5G will not only be an evolution of mobile broadband networks. It will bring new unique network and service capabilities. Firstly, it will ensure user
experience continuity in challenging situations such as high mobility (e.g. in trains), very dense or sparsely populated areas, and journeys covered by
heterogeneous technologies. In addition, 5G will be a key enabler for the Internet of Things by providing a platform to connect a massive number of
sensors, rendering devices and actuators with stringent energy and transmission constraints. Furthermore, mission critical services requiring very high
reliability, global coverage and/or very low latency, which are up to now handled by specific networks, typically public safety, will become natively
supported by the 5G infrastructure. From that perspective, 5G is expected to support digitization of vertical industries, understand the consumer’s
needs and develop a technological network that connects people, things and services like never before.
5G infrastructures will provide network solutions and involve vertical markets such as automotive, energy, food and agriculture, city management,
government, healthcare, manufacturing, public transportation, and so forth. The challenge is to eliminate the current and anticipated limitations of
network infrastructures, by making them capable of supporting a much wider array of requirements and with the capability of flexibly adapting to
different «vertical» application requirements. 5G cannot be fully deployed if the regulations applying to the various sectors are not made compatible.
This panel aims at fostering the interactions between the more traditional ICT sectors and the potential users, to further identify the specific requirements of the vertical industries. The goal is to establish links between the various communities towards a common understanding of the set of
requirements of the various sectors and how these translate into design, architecture, technology and performance requirements. These requirements
vary in terms of data rate, latency, mobility, coverage, device density, reliability, cost, energy and a refined analysis needs to be further carried out.
The intention is therefore to fuel 5G design debates and correctly steer the 5G evolution, including also domains like standardization and regulation.
QUESTIONS:
1. WHAT ARE THE TECHNICAL REQUIREMENTS FOR FUTURE 5G SYSTEMS SUPPORTING THE VERTICAL INDUSTRIES
AND WHAT ARE THE MISSING TECHNOLOGIES?
2. HOW TO FOSTER COLLABORATION BETWEEN THE TELECOM SECTORS AND VERTICALS, TO MAKE SURE THAT
5G SPECIFICATIONS ARE SET WITH THE RIGHT REQUIREMENTS?
3. WHAT ARE THE REGULATORY AND STANDARDIZATION CHALLENGES TO CONSIDER?
4. WHAT TESTBED AND DEMONSTRATION STRATEGIES SHOULD BE CONSIDERED IN FUTURE RESEARCH PROGRAMMES?
5. AS A BROADER SET OF 5G REQUIREMENTS TO ENCOMPASS VERTICAL MARKET NEEDS WOULD BE OF ESSENCE,
HOW DO THE PANELLISTS SEE WAYS TO ENGAGE KEY VERTICAL MARKET PLAYERS’ CONTRIBUTIONS?
6. AS A BROADER SET OF 5G REQUIREMENTS TO ENCOMPASS VERTICAL MARKET NEEDS WOULD BE OF ESSENCE,
HOW DO THE PANELLISTS SEE WAYS TO ENGAGE KEY VERTICAL MARKET PLAYERS’ CONTRIBUTIONS?
7. ARE THERE ANY FORESEEN/ANTICIPATED PARADIGM SHIFTS IN TERMS OF NEW BUSINESS MODELS
AND STAKEHOLDERS’ ROLES AND IMPACT?
14
IOT, 5G, BIG SMART DATA INTERPLAY - THE CONVERGENCE AND INTEGRATION
OF MOBILE COMMUNICATIONS, INTERNET, AND BIG DATA PROCESSING
14:30-16:00
PANELISTS:
DR. OVIDIU VERMESAN,
CHIEF SCIENTIST, SINTEF, NORWAY
ROOM BERLIOZ
LAURENT SCHMITT,
VICE PRESIDENT STRATEGY
& INNOVATION, ALSTOM GRID, FRANCE
ANGEL HERNANDEZ BRAVO,
DISTINGUISHED CHIEF ARCHITECT,
IBM, SPAIN
Abstract:
RÉGIS HOURDOUILLIE,
PRINCIPAL CONSULTANT,
GLOBAL UTILITY TEAM,
ERICSSON, FRANCE
NOZHA BOUJEMAA,
DIRECTOR INRIA RESEARCH CENTER SACLAY ILE-DE-FRANCE, FRANCE
PANELS
P2
ICT technologies are changing rapidly and the existing technologies are merging into new technologies providing value added to various applications in
different industrial sectors. Today the trend is seen in the convergence of the 5As of Internet of Things: Anything, Anybody, Anywhere, Anytime, Any-path
processing with the 5Vs of Smart Big Data: Volume, Variety, Velocity, Value, Variability and the 5G mobile communication. This new convergence trend
redefines the notions of real-time IoT, 5G mobile communications systems and Smart Big Data. IoT applications are combining real-time sensing, data
delivery, big data intelligence, application of insights through real-time actuation, while IoT applications will make use of heterogeneous networks using
different kinds of radio access nodes, which are placed according to the needs of the field. The future networks need to improve cellular coverage, capacity, the global throughput, use technologies that enables low latency, real-time bandwidth, and advanced packet priority management, achieving higher
throughput and less jitter, while enhance the user experience. The emergence of industrial IoT connecting actuating robots, haptic computing through the
inclusion of the next generation networking capabilities will accelerate the convergence and integration of mobile communications, Internet, and big data
processing in realizing diverse applications of IoT.
The European Commission (EC) launched in Brussels during the Net Futures 2015 conference in March 2015 the Alliance for Internet of Things Innovation
(AIOTI) (http://www.aioti.eu/) to boost Europe’s potential in the Internet of Things field. T he initiative cuts across several technological areas such as
smart systems integration, cyber-physical systems, smart networks, and Big Data; and targets SME and IoT innovators to create an open IoT environment.
In this context, the objective of the panel is to address and discuss the challenges and opportunities within the future Internet of Things developments, 5G
and wireless networks, and identify use cases where Big Data Analytics have a significant role in planning, implementing and operating the 5G networks
and deploying Internet of Things applications across various industrial sectors.
P3
OPTICAL NETWORKS - THE KEY TECHNOLOGY
FOR ENABLING THE DEPLOYMENT OF GLOBAL ICT ACROSS SOCIETY
DR. RAUL MUÑOZ
HEAD OF OPTICAL NETWORKS
AND SYSTEMS DEPARTMENT,
CTTC, SPAIN
Abstract:
11:00-12:30
ROOM BERLIOZ
PANELISTS:
DR. SÉBASTIEN BIGO
DIRECTOR OF THE OPTICAL
NETWORKS RESEARCH DEPARTMENT,
ALCATEL-LUCENT BELL LABS, FRANCE
PROF. DIMITRA SIMEONIDOU
PROFESSOR OF HIGH PERFORMANCE
NETWORKS, UNIVERSITY OF BRISTOL,
AND CTO OF BRISTOL IS OPEN,
UNITED KINGDOM
JUAN FERNÁNDEZ-PALACIOS
HEAD OF CORE NETWORK EVOLUTION
UNIT, TELEFONICA GLOBAL CTO, SPAIN
KLAUS GROBE
SR. PRINCIPAL ENGINEER, CTO OFFICE,
ADVA OPTICAL NETWORKING, GERMANY
The United Nations has proclaimed 2015 as the International Year of Light and Light-based Technologies (IYL 2015). It is a global initiative to raise
awareness and understanding among citizens of how optical technologies promote sustainable development of society by providing solutions to
worldwide challenges in energy, education, agriculture, communications and health. In particular, the optical technology is the key enabler of the
Information and Communication Technology (ICT) society as known nowadays. The introduction of ultra-high speed and ultra-low latency optical
communication and transport network solutions have radically transformed the way people and machines from everywhere can communicate across
the world that was unbelievable a decades ago.
The objective of this Panel is to discuss the key role that optical networks are playing not only in the present but also in the future of the ICT sector. The
combination of the recent advances in flexible and programmable optical device technologies, together with the emerging software-defined networking (SDN) control paradigm is driving the deployment of SDN-enabled elastic optical networks. The dynamic and flexible provisioning of abstracted
optical resources enables a wide range of new functionalities that go beyond a commodity providing fixed bandwidth pipes for bulk data. An example
of these new applications are optical network virtualization, inter and intra data center optical networking, orchestration of IT and optical network
resources, unified control of heterogeneous resources, or network function virtualization Infrastructure (NFVI). These functionalities are key enablers
for 5G, Smart Cities, Cloud and Big Data services.
QUESTIONS:
1. IS THERE ROOM FOR RESEARCH ON OPTICAL COMMUNICATIONS AND NETWORKS IN EU-FUNDED PROJECT OR IS IT GAME OVER?
2. WHEN WILL NETWORKS REQUIRE TO TAKE FULL ADVANTAGE OF THE EMERGING FLEXIBLE AND PROGRAMMABLE OPTICAL DEVICE
AND TRANSPONDER TECHNOLOGIES?
3. ARE TRANSPORT SDN AND NFV A REAL VALUE THAT WILL DRIVE NEW BUSINESS OPPORTUNITIES OR A HYPE?
4. DO DATA CENTERS REALLY NEED ADVANCED SOFTWARE-DEFINED HIGH-SPEED AND LOW-LATENCY PHOTONICS TECHNOLOGY?
5. WHAT IS THE ROLE OF SPACE DIVISION MULTIPLEXING (SDM) IN TELECOM APPLICATIONS? IS THERE ANYTHING COMING AFTERWARDS?
15
TECHNICAL SESSIONS, SPECIAL SESSIONS
SPS02
EUROPEAN PLATFORMS AND FACILITIES
FOR EXPERIMENTATION TOWARDS 5G
REDUCING INTERNET LATENCY
ROOM BERLIOZ 11.00 - 12.30
ROOM MOLIÈRE
SESSION CHAIR: MIQUEL PAYARÓ (CTTC, SPAIN)
SESSION CHAIR: ANNA BRUNSTROM
(KARLSTAD UNIVERSITY, SWEDEN)
OpenAirInterface: Open-source software radio solutions for 5G
Florian Kaltenberger (Eurecom, France); Raymond Knopp (Institut
Eurecom, France); Navid Nikaein, Dominique Nussbaum and Lionel Gauthier (Eurecom, France); Christian Bonnet (Institut Eurecom,
France)
End-to-end 5G services via an SDN/NFV-based multi-tenant
network and cloud testbed
Raul Muñoz (CTTC, Spain); Josep Mangues-Bafalluy (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC), Spain); Nikolaos
Bartzoudis, Ricard Vilalta and Ricardo Martinez (CTTC, Spain); Ramon Casellas (Centre Tecnologic de Telecomunicacions de Catalunya
(CTTC), Spain); Nicola Baldo (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC), Spain); José Núñez-Martínez (Centre
Tecnologic de Telecomunicacions de Catalunya, Spain); Manuel Requena-Esteso (Centre Tecnològic de Telecomunicacions de Catalunya
(CTTC), Spain); Oriol Font-Bach (Centre Tecnològic de Telecomunicacions de Catalunya, Spain); Marco Miozzo (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC), Spain); Pol Henarejos (Centre
Tecnologic de Telecomunicacions de Catalunya (CTTC), Spain); Ana
Pérez-Neira (Centre Tecnologic de Telecomunicacions de Catalunya
Castelldefels, Spain); Miquel Payaró (CTTC, Spain)
11.00 - 12.30
Internet Latency: Causes, Solutions and Trade-offs
David Hayes (University of Oslo, Norway); Ing Jyh Tsang (Alcatel-Lucent, Belgium); David Ros (Simula Research Laboratory,
Norway); Andreas Petlund (University of Oslo & Simula Research Laboratory, Norway); Bob Briscoe (BT plc, United Kingdom)
Reducing Transport Latency using Multi-path Protocols
Per Hurtig (Karlstad University, Sweden); Ozgu Alay (Simula Research
Laboratory, Norway); Simone Ferlin (University of Oslo & Simula Research Laboratory, Norway); Kiran Yedugundla (Karlstad University,
Sweden)
Evaluation of Priority Scheduling and Flow Starvation for Thin
Streams with FQ-CoDel
Eduard Grigorescu, Chamil Kulatunga and Gorry Fairhurst (University of Aberdeen, United Kingdom); Nicolas Kuhn (Telecom Bretagne,
France)
Coupled Congestion Control for WebRTC
Safiqul Islam and Michael Welzl (University of Oslo, Norway); Stein
Gjessing (University of Oslo & Simula Research Lab., Norway)
Ericsson’s 5G Vision
Hugo M Tullberg (Ericsson Research, Sweden)
A Broadcast-Based Routing Protocol for Linear Wireless
Networks:Design and Testing on EuWIn
Chiara Buratti (University of Bologna, Italy); Andrea Stajkic (DEI, University of Bologna, Italy); Roberto Verdone and Parisa Hemmati (University of Bologna, Italy)
Virtualizing the Network Edge with Microservers
Filipe Manco and Kenichi Yasukata (NEC Europe Ltd., Germany);
Joao Martins (NEC Europe Ltd, Germany); Felipe Huici (NEC Europe
Ltd., Germany)
WIN02
ROOM 9
SOFTWARE DEFINED NETWORKS
AND CLOUD-RAN I
11.00 - 12.30
NET01
SDN AND IP NETWORKS
ROOM 10 - 11
11.00 - 12.30
SESSION CHAIR: ROBERTO VERDONE
(UNIVERSITY OF BOLOGNA, ITALY)
SESSION CHAIR: A. MURAT TEKALP
(KOC UNIVERSITY, TURKEY)
Dynamic Network Reconfiguration in Wireless DenseNets with the
CROWD SDN Architecture
Sébastien Auroux and Martin Dräxler (University of Paderborn, Germany); Arianna Morelli (Intecs, Italy); Vincenzo Mancuso (IMDEA
Networks Institute, Spain)
Distributed Management of Service-Enabled Flow-Paths Across
Multiple SDN Domains
Seyhan Civanlar (Argela Technologies, Turkey); Erhan Lokman (ARGELA, Turkey); Bulent Kaytaz (ARGEL:A Technologies, Turkey); A. Murat Tekalp (Koc University, Turkey)
Self-Optimisation of Vertical Sectorisation in a Realistic LTE
Network
Konstantinos Trichias and Remco Litjens (TNO, The Netherlands);
Abdoulaye Tall and Zwi Altman (Orange Labs, France); Pradeepa Ramachandra (Ericsson Research, Sweden)
Multipath Routing in SDN-based Data Center Networks
Yi-Chih Lei, Kuochen Wang and Yi-Huai Hsu (National Chiao Tung
University, Taiwan)
SDN and NFV Integration in Generalized Mobile Network Architecture
Jose Costa-Requena, Jesus Llorente Santos and Vicent Ferrer Guasch
(Aalto University, Finland); Kimmo Ahokas and Gopika Premsankar
(AALTO University, Finland); Madhusanka Liyanage and Ijaz Ahmad
(University of Oulu, Finland); Oscar López (NEXTEL, Spain); Mikel
Uriarte (Nextel S.A., Spain); Edgardo Montes de Oca (Montimage,
France); Sakari Luukkainen (Aalto University, Finland); Mika Ylianttila
(University of Oulu, Finland)
Optimizing Cloud-RAN Deployments in Real-life Scenarios Using
Microwave Radio
Rami Al-obaidi, Aleksandra Checko, Henrik Holm and Henrik Christiansen (Technical University of Denmark, Denmark)
16
SPS01
Enabling Wireless Backhauling for Next Generation mmWave
Networks
Mehrdad Shariat and Mehrdad Dianati (University of Surrey, United
Kingdom); Kari Seppänen (VTT Information Technology, Finland); Tapio Suihko (VTT Technical Research Centre of Finland, Finland); Jyri
Putkonen (Nokia & Network, Finland); Valerio Frascolla (Intel Mobile
Communications Gmbh, Germany)
Fast Controller Failover for Multi-domain Software-Defined
Networks
Yi-Chen Chan, Kuochen Wang and Yi-Huai Hsu (National Chiao Tung
University, Taiwan)
Fairness Mechanisms for Single-path Capacity Allocation based
on Mixed-Integer (Non-)Linear Programming
Amanpreet Singh, Md Shahabuddin, Andreas J. Könsgen and Carmelita Goerg (University of Bremen, Germany)
Tackling Bufferbloat in Capacity-limited Networks
Chamil Kulatunga (University of Aberdeen, United Kingdom); Nicolas Kuhn (Telecom Bretagne, France); Gorry Fairhurst (University of
Aberdeen, United Kingdom); David Ros (Simula Research Laboratory,
Norway)
WIRELESS COMMUNICATIONS
WIN01
TESTBEDS AND DEPLOYMENT
ROOM 5 11.00 - 12.30
ROOM 6-7 11.00 - 12.30
SESSION CHAIR: DOMINIQUE NOGUET (CEA LETI, FRANCE
SESSION CHAIR: JORGE PEREIRA, (EUROPEAN COMMISSION, BELGIUM)
Sub-Optimal Initialization for Blind Equalization with Fast Convergence in OFDM/OQAM Modulation
Vincent Savaux and Faouzi Bader (CentraleSupélec, France)
An architecture for m-health services: the CONCERTO project
solution
Lorenzo Iacobelli (Thales, France); Gianmarco Panza (CEFRIEL, Italy); Esa Piri and Janne Vehkaperä (VTT Technical Research Centre of
Finland, Finland); Matteo Mazzotti and Simone Moretti (University of
Bologna, Italy); Sergio Cicalò (University of Ferrara - Italy & CNIT, Italy); Laszlo Bokor and Norbert Varga (Budapest University of Technology and Economics, Hungary); Maria G. Martini (Kingston University,
United Kingdom)
Spectrally Efficient Waveforms for the Return Link in Satellite
Communication Systems
Svilen Dimitrov (German Aerospace Center (DLR), Germany); Niccoló Privitera and Rosalba Suffritti (Mavigex, Italy); Gabriele Boccolini
(GRADIANT, Spain); Adegbenga Awoseyila and Barry Evans (University of Surrey, United Kingdom)
A Subcarrier and Power Allocation Algorithm for OFDMA FullDuplex Systems
Ali Cagatay Cirik and Kari Rikkinen (University of Oulu, Finland); Yue
Rong (Curtin University, Australia)
Spectrum Awareness and Exploitation for Cognitive Radio Satellite Communications
Alessandro Guidotti, Vincenzo Icolari, Daniele Tarchi and Alessandro
Vanelli-Coralli (University of Bologna, Italy); Shree Krishna Sharma
(University of Luxembourg, Luxemburg); Eva Lagunas (University
of Luxemburg - SnT, Luxemburg); Sina Maleki (University of Luxembourg & The Interdisciplinary Centre for Security, Reliability and Trust
(SnT), Luxemburg); Symeon Chatzinotas (University of Luxembourg,
Luxemburg); Joel Grotz (Newtec Cy., Belgium); Jens Krause (SES
S.A., Luxemburg); Erwan Corbel (Thales Alenia Space, France); Barry
Evans and Paul Thompson (University of Surrey, United Kingdom)
Validation of low-accuracy quantization in massive MIMO
and constellation EVM analysis
Claude Desset and Liesbet Van der Perre (IMEC, Belgium)
OPN01
ROOM 12
OPTICAL COMMUNICATION SYSTEMS
AND TECHNOLOGIES
Study on Impact of Vertical Sectorization on Mobility
and Existing MRO Performance
Dereje Woldemedhin Kifle (Nokia Solutions and Networks, Germany);
Bernhard Wegmann (Nokia Networks, Germany); Ingo Viering (Nomor Research GmbH, Germany); Anja Klein (TU Darmstadt, Germany)
mmWave Use cases and Prototyping: a way towards 5G Standardization
Valerio Frascolla (Intel Mobile Communications Gmbh, Germany);
Michael Faerber (Intel Mobile Communications, Germany); Vincent
Kotzsch and Eckhard Ohlmer (National Instruments, Germany);
Jyri Putkonen (Nokia & Network, Finland); Emilio Calvanese Strinati
(CEA-LETI, France); Laurent Dussopt (CEA, LETI, Minatec, France);
Mehrdad Shariat (University of Surrey, United Kingdom); Giovanni Romano (Telecom Italia, Italy)
Capacity Evaluation of Aerial LTE Base-Stations for Public
Safety Communications
Karina Mabell Gomez (Create-Net & The University of Trento, Italy);
Akram Al-Hourani (RMIT University, Australia); Leonardo Goratti (Joint
Reserach Center (JRC), Italy); Roberto Riggio (Create-Net, Italy); Sithamparanathan Kandeepan (RMIT University, Australia); Isabelle Bucaille (Thales Communications, France)
Improving the System Capacity Using Directional Antennas
With a Fixed Beam on Small Unmanned Aerial Vehicles
Oleksandr Andryeyev, Oleksandr Artemenko and Andreas Mitschele-Thiel (Ilmenau University of Technology, Germany)
TUESDAY, 30 JUNE 2015 11.00 - 12.30
PHY01
11.00 - 12.30
SESSION CHAIR: ERDAL PANAYIRCI
(KADIR HAS UNIVERSITY, TURKEY)
Equalizer Complexity for 6-LP Mode 112 Gbit/s m-ary DP-QAM
Space Division Multiplexed Transmission in Strongly Coupled
Few-Mode-Fibers
Rameez Asif, Feihong Ye and Toshio Morioka (Technical University of
Denmark, Denmark)
Selection Strategy in C+L Band 1-Pbit/s (448 WDM/19-Core/128 Gbit/s/channel) Flex-Grid Space Division Multiplexed Transmission
Rameez Asif, Feihong Ye and Toshio Morioka (Technical University of
Denmark, Denmark)
A Complete Fronthaul CWDM Single Fiber Solution including Improved Monitoring Scheme
Diallo Abdourahmane (Orange, France); Anna Pizzinat (Orange Labs
Networks and Carriers, France); Philippe Chanclou and Stéphane
Gosselin (Orange Labs, France); Bertrand Le Guyader and Fabienne
Saliou (Orange, France); Christelle Aupetit-Berthelemot (University of
Limoges -ENSIL, France); Amr Abdelfattath (Orange, France)
Sliceable bandwidth variable transponder: the IDEALIST vision
Emilio Riccardi (Telecom Italia Lab, Italy); Annachiara Pagano (Telecom Italia, Italy); Marc Bohn, Antonio Napoli and Danish Rafique
(Coriant R&D GmbH, Germany); Nicola Sambo and Piero Castoldi
(Scuola Superiore Sant’Anna, Italy); Michela Svaluto Moreolo (Centre
Tecnològic de Telecomunicacions de Catalunya (CTTC), Spain); Josep
M. Fabrega (Centre Tecnologic de Telecomunicacions de Catalunya,
Spain); Emilio Hugues Salas, Georgios Zervas and Dimitra Simeonidou (University of Bristol, United Kingdom); Antonio D’Errico (Ericsson, Italy); Talha Rahman (Eindhoven University of Technology, Eindhoven, The Netherlands); Matthias Gunkel (Deutsche Telekom Technik
& Fixed Mobile Engineering Deutschland, Germany)
17
TUESDAY, 30 JUNE 2015 16.30 - 18.00
SPS04
5G SCENARIOS AND USE CASES: HOW
NEW MMWAVES TECHNOLOGIES CAN
LEAD TO AN IMMERSIVE USER EXPERIENCE
QOS/QOE MONITORING AND MANAGEMENT WITH SDN
ROOM MOLIÈRE 16.30 - 18.00
SESSION CHAIR: VALERIO FRASCOLLA
(INTEL MOBILE COMMUNICATIONS GMBH,
GERMANY)
SESSION CHAIR: YORAM HADDAD (JERUSALEM
COLLEGE OF TECHNOLOGY,
ISRAEL)
New Spectrum Opportunities for 5G Networks an Beyond
Emilio Calvanese Strinati (CEA-LETI, France)
Chances and Challenges of SDN-enabled QoE Management
Michael Jarschel (Nokia, Germany)
Millimeter-wave small-cell deployment scenarios as an enabler
for 5G applications and use cases
Richard J. Weiler (Fraunhofer HHI, Germany); Wilhelm Keusgen
(Fraunhofer Heinrich Hertz Institute, Germany); Michael Peter (Fraunhofer HHI, Germany); Ilario Filippini (Politecnico di Milano, Italy);
Vincenzo Sciancalepore (Institute IMDEA Networks & Politecnico di
Milano, Italy); Thomas Haustein (Fraunhofer Institute for Telecommunications, Heinrich-Hertz-Institut, Germany)
Interaction of Control Loops on Application, Transport, and
Network Layer
Thomas Zinner (University of Wuerzburg, Germany); Giuseppe Cofano
(Politecnico di Bari, Italy); Florian Wamser (University of Wuerzburg,
Germany); Luca De Cicco and Saverio Mascolo (Politecnico di Bari,
Italy); Phuoc Tran-Gia (University of Wuerzburg, Germany)
Millimeter-Wave Technologies for 5G: Opportunities, Challenges
and path toward Standards
Laurent Dussopt (CEA, LETI, Minatec, France)
Scenarios and Use Cases in Tweether: W-band for Internet Everywhere
Claudio Paoloni (Lancaster University, United Kingdom); Viktor Krozer
(Goethe University of Frankfurt am Main, Germany); Frederic Andre
(Thales Electron Devices, France); François Magne (Bluwan S.A.,
France); Marc Marilier (OMMIC, France); Ralp Zimmerman (HF System Engineering, Germany); Antonio Ramirez (Fibernova Systems,
Spain); Rosa Letizia (Lancaster University, United Kingdom); Ruth
Vilar (Universitat Politecnica de Valencia, Spain); Qiang Ni (Lancaster University, United Kingdom); Ioan Burciu (Bluwan, France); Marc
Rocchii (OMMIC, France)
Time Awareness in Software Defined Networking
Padraig O Flaithearta and Hugh Melvin (National University of Ireland,
Galway, Ireland); Peter Pocta (University of Zilina, Slovakia)
Utilizing Home Router Caches to Augment CDNs toward
Information-Centric Networking
Michael Seufert (University of Würzburg, Germany); Valentin Burger,
Florian Wamser and Phuoc Tran-Gia (University of Wuerzburg, Germany); Christian Moldovan and Tobias Hoßfeld (University of Duisburg-Essen, Germany)
From Use Cases to Prototyping Multi-GBit/s mmWave Links in
MiWaveS
Eckhard Ohlmer and Vincent Kotzsch (National Instruments, Germany)
WIN03
ROOM 9
RADIO RESOURCE MANAGEMENT
16.30 - 18.00
SESSION CHAIR: MIQUEL PAYARÓ (CTTC, SPAIN)
Reducing Energy Consumption by Dynamic Resource Allocation
in C-RAN
Muhammad Khan (Brunel University, United Kingdom); Hamed Saffa
Al-Raweshidy (University of Brunel, United Kingdom); Raad Alhumaima (Brunel University, United Kingdom)
Radio Resource Management Techniques for High Throughput Satellite Communication Systems
Svilen Dimitrov, Stefan Erl and Benjamin Barth (German Aerospace
Center (DLR), Germany); Stephan Jaeckel (Fraunhofer Heinrich Hertz
Institute, Germany); Argyrios Kyrgiazos and Barry Evans (University
of Surrey, United Kingdom)
Fair Resource Allocation with QoS Support for the Uplink of LTE
Systems
Sergio Cicalò (University of Ferrara - Italy & CNIT, Italy); Velio Tralli
(University of Ferrara - Italy, Italy)
Addressing Multiple Virtual Resources in the Same Geographical Area
Luisa Caeiro (Escola Superior de Tecnologia de Setubal - Polytechnic Institute of Setubal, Portugal); Luis M. Correia (IST - University
of Lisbon & INOV-INESC, Portugal); Filipe D. Cardoso (ESTSetubal/
Polytechnic Institute of Setubal, Portugal)
Dynamic LSA for 5G networks The ADEL perspective
Antonio Morgado and Álvaro Gomes (Portugal Telecom Inovação e
Sistemas, Portugal); Valerio Frascolla (Intel Mobile Communications
Gmbh, Germany); Konstantinos Ntougias and Constantinos B. Papadias (Athens Information Technology, Greece); Dirk Slock (EURECOM,
France); Elma Avdic (Trinity College Dublin, Ireland); Nicola Marchetti
(CTVR Trinity College, Ireland); Nathalie Haziza (Thales Communications & Security, France); Hicham Anouar (Thales Communications
and Security, France); Yang Yang and Marius Pesavento (Technische
Universität Darmstadt, Germany); Faheem A. Khan (University of
Edinburgh, United Kingdom); Tharmalingam Ratnarajah (The University of Edinburgh, United Kingdom)
18
SPS03
APS01
ROOM 12
CLOUD COMPUTING
16.30 - 18.00
SESSION CHAIR: : MALATHI VEERARAGHAVAN
(UNIVERSITY OF VIRGINIA, UNITED STATES)
Evaluator Services for Optimised Service Placement in Distributed Heterogeneous Cloud Infrastructures
Frederik Vandeputte and Luc Vermoesen (Alcatel-Lucent Bell NV,
Belgium); David Griffin and Truong Khoa Phan (University College
London, United Kingdom); Miguel Rio (UCL, United Kingdom); Pieter Simoens (Ghent University - iMinds, Belgium); Piet Smet (iMinds/
Ghent University, Belgium); Dariusz Bursztynowski (Orange & Warsaw University of Technology, Poland); Folker M Schamel and Michael
Franke (Spinor, Germany)
A measurement-based study of big-data movement
Ranjana Addanki, Sourav Maji and Malathi Veeraraghavan (University
of Virginia, USA); Chris Tracy (ESnet, USA)
Towards Manufacturing 2.0: an innovative Architecture for the
Factory of the Future
Andrea Fiaschetti (University of Rome «La Sapienza», Italy); Antonio
Pietrabissa (Università di Roma La Sapienza, Italy); Francesco Delli
Priscoli (University of Rome, «La Sapienza», Italy)
Comparison of Time Synchronization Techniques in a Distributed
Collaborative Swarm System
Vincent Autefage (LaBRI, University of Bordeaux, France); Serge Chaumette and Damien Magoni (University of Bordeaux, France)
ROOM 5
COMMUNICATION THEORY & FADING
16.30 - 18.00
SESSION CHAIR: ADRIAN KLIKS
(POZNAN UNIVERSITY
OF TECHNOLOGY, POLAND)
H-Fading: Towards H-Transform Theory for Wireless Communication
Youngmin Jeong and Hyundong Shin (Kyung Hee University, Korea);
Moe Win (Massachusetts Institute of Technology, USA)
H-Transforms for Symbol Error Probability
H-Transforms for Channel Capacity
Rayleigh Flat Fading Channel Modeled as a G/Hr/1 Queue
Vahid Towhidlou (King’s College London, United Kingdom); Mohammad Shikh-Bahaei (Kings college London, United Kingdom)
Power-based localization in correlated log-normal fading aided
by conditioning measurements
George Arvanitakis and Florian Kaltenberger (Eurecom, France); Ioannis Dagres and Andreas Polydoros (University of Athens, Greece);
Adrian Kliks (Poznan University of Technology, Poland)
TER01
ROOM 6 - 7
TESTBED AND EXPERIMENTAL RESEARCH 1
16.30 - 18.00
SESSION CHAIR: ANNA BRUNSTROM
(KARLSTAD UNIVERSITY, SWEDEN)
Experimental Analysis and Simulative Validation of Dynamic
Spectrum Access for Coexistence of 4G and Future 5G Systems
Florian Kaltenberger (Eurecom, France); Raymond Knopp (Institut
Eurecom, France); Martin Danneberg (Technische Universität Dresden, Germany); Andreas Festag (TU Dresden, Germany)
Enabling experimentation in mobile sensing scenarios through 4G
networks: the NITOS approach
Donatos Stavropoulos, Giannis Kazdaridis, Nikos Makris, Harris
Niavis and Ioannis Igoumenos (University of Thessaly, Greece); Thanasis Korakis (New York University, USA); Leandros Tassiulas (Yale
University, USA)
Experiences with Testbed Evaluation of the MobilityFirst Future I
nternet Architecture
Francesco Bronzino and Dipankar Raychaudhuri (Rutgers University,
USA); Ivan Seskar (WINLAB, Rutgers University, USA)
A virtualized platform for analyzing LTE broadcast services
Carlos M. Lentisco (Universidad Politécnica de Madrid, Spain); Miguel
A. Aguayo Ortuño (Universidad Politécnica de Madrid & Universidad
de Colima, Spain); Luis Bellido (Telematic Systems Engineering Department, Technical University of Madrid (DIT-UPM), Spain); Encarna
Pastor (Universidad Politecnica de Madrid, Spain); David de Antonio Monte (Alcatel-Lucent, France); Alejandro García Bolívar (Alcatel-Lucent, Spain)
PHY02
19
SPS06
5G FOR VERTICAL INDUSTRIES - 6TH
USAGE AREAS
PERFORMANCE ANALYSIS OF
MULTI-USER COMMUNICATION SYSTEMS
ROOM MOLIÈRE
SESSION CHAIR: JEAN-SEBASTIEN BEDO
(ORANGE, FRANCE)
SESSION CHAIR: MICHEL KIEFFER
(L2S - CNRS - SUPELEC UNIVERSITYPARIS-SUD, FRANCE)
Media and content sector expectations for 5G
Andrew Murphy (BBC, France)
The 5G connected car
Alain Servel (PSA Peugeot Citroen, France)
Vision from Orange Healthcare on 5G
Benjamin Sarda (Orange, France)
Making 5G a real booster for vertical markets
Jean-Sebastien Bedo (Orange, France); Bernard Barani and Achilleas
Kemos (European Commission, Belgium)
11.00 - 12.30
Bounds on the Benefits of Interaction in Distributed Source Coding
for Function Computation
Abdellatif Zaidi (Université Paris-Est Marne La Vallée, France); Mohamed-Ali Moussa (Universite Paris-Est, France)
Error exponent analysis for MIMO multiple-scattering channels
Giuseppa Alfano and Carla-Fabiana Chiasserini (Politecnico di Torino,
Italy); Alessandro Nordio (IEIIT-CNR, Italy); Siyuan Zhou (Politecnico
di Torino, Italy)
Spatial Coupling - A way to Improve the Performance and Robustness of Iterative Decoding
Michael Lentmaier (Lund University, Sweden); Iryna Andriyanova (ENSEA/UCP/CNRS, France); Najeeb Ul Hassan (Dresden University of
Technology, Germany); Gerhard P. Fettweis (Technische Universitaet
Dresden, Germany)
Error Probability of Downlink MIMO Cellular Networks by Using
Stochastic Geometry
Peng Guan (CNRS, France); Marco Di Renzo (French National Center
for Scientific Research (CNRS), France); Christos Verikoukis (Telecommunications Technological Centre of Catalonia, Spain); Trung Q.
Duong (Queen’s University Belfast, United Kingdom)
The Role of Noisy Feedback in Secure Communications
Germán Bassi (Supélec, France); Pablo Piantanida (SUPELEC,
France); Shlomo (Shitz) Shamai (The Technion, Israel)
WIN04
ROOM 9
SOFTWARE DEFINED NETWORKS
AND CLOUD-RAN II
11.00 - 12.30
NET02
5G MOBILE NETWORKS
ROOM 10 - 11
11.00 - 12.30
SESSION CHAIR: SERGIO PALAZZO
(UNIVERSITY OF CATANIA, ITALY)
SESSION CHAIR: DIDIER BOURSE
(ALCATEL LUCENT, FRANCE)
Traffic-aware resource sharing in ultra-dense small cell networks
Omer Anjum (University, Finland); Osman N. C. Yilmaz and Carl Wijting
(Nokia Research Center, Finland); Mikko A Uusitalo (Nokia Networks,
Finland)
Joint RAN/Backhaul Optimization in Centralized 5G RAN
Emmanouil Pateromichelakis (University of Surrey, United Kingdom);
Andreas Maeder (Nokia Networks, Germany); Antonio De Domenico
(CEA-LETI Minatec, France); Richard Fritzsche (Technische Universität
Dresden, Germany); Paul de Kerret (EURECOM, France); Jens Bartelt
(Technische Universität Dresden, Germany)
Modelling Virtual Radio Resource Management with Traffic Offloading Support
Sina Khatibi (Technical University of Lisbon, Portugal); Luis M. Correia
(IST - University of Lisbon & INOV-INESC, Portugal)
Optimal Assignment of Cells in C-RAN Deployments with Multiple
BBU Pools
Henrik Holm, Aleksandra Checko, Rami Al-obaidi and Henrik Christiansen (Technical University of Denmark, Denmark)
Transmit Power Control and Clear Channel Assessment in LAA
Networks
Pengfei Xia (Tongji University, USA); Zi Teng (Tongji University, P.R.
China); Jun Wu (Tongji University China, P.R. China)
SDN-based Joint Backhaul and Access Design for Efficient
Network Layer Operations
Dongyao Wang (Alcatel-Lucent Shanghai Bell, P.R. China); Efstathios
Katranaras (University of Surrey & Institute for Communication Systems, United Kingdom); Atta Ul Quddus (University of Surrey, United
Kingdom); Nikolaos Sapountzis (EURECOM, France); Luca Cominardi
(IMDEA Networks Institute, Spain); Fang-Chun Kuo (NEC Europe Ltd.,
Germany); Peter Rost (Nokia Networks, Germany); Carlos J. Bernardos (Universidad Carlos III de Madrid, Spain); Ignacio Berberana (Telefonica I+D, Spain)
20
SPS05
System Design for 5G Converged Networks
Hans Joachim Einsiedler (Deutsche Telekom, Berlin, Germany); Patrick Sellstedt (Ericsson AB, Sweden); Riccardo Trivisonno (Huawei
Technologies, Germany); Anastasius Gavras (Eurescom GmbH, Germany); Rui L Aguiar (University of Aveiro & Instituto de Telecomunicações, Portugal); Damien Lavaux (Thales, France)
On planning small cell backhaul networks
Ole Grøndalen (Telenor, Norway); Olav Norvald Østerbø (Telenor Corporate Development, Norway); Geir Millstein and Terje Tjelta (Telenor,
Norway)
Universal AAA for hybrid accesses
Tahar Mamouni (Orange Labs, France); Jose Alfonso Torrijos (Telefonica I+D, Spain); Xavier Lagrange (Institut Mines Telecom / Telecom
Bretagne & IRISA, France); Péter Olaszi (AITIA International, Inc.,
Hungary)
A solution for SGi-LAN Services Virtualization using NFV and SDN
Pål R. Grønsund (Telenor & University of Oslo, Norway); Kashif Mahmood and Geir Millstein (Telenor, Norway); Ariel Noy, Gadi Solomon
and Ajay Sahai (ConteXtream, USA)
INFORMATION THEORY & CODING
WIN05
QUALITY OF SERVICE
ROOM 5 11.00 - 12.30
ROOM 6-7 11.00 - 12.30
SESSION CHAIR: CONSTANTINOS B. PAPADIAS
(ATHENS INFORMATION TECHNOLOGY,
GREECE)
SESSION CHAIR: ANA GARCIA ARMADA
(UNIVERSIDAD CARLOS III DE MADRID, SPAIN)
Net DoF analysis for the K-user MISO IC with outdated and imperfect channel feedback
Marc Torrellas (Universitat Politècnica de Catalunya, Spain); Adrian
Agustin (Universitat Politècnica de Catalunya (UPC), Spain); Josep
Vidal (Universitat Politècnica de Catalunya, Spain)
Performance Analysis of Multi-Antenna Relay Systems with Statistical Channel State Information at the Relay
Mehdi M. Molu and Alister G. Burr (University of York, United Kingdom)
Soft Detection of Multilevel Lattice Network Coding
Yi Wang and Alister G. Burr (University of York, United Kingdom)
Novel Protocols for Cooperative Wireless Networks with Common
Destination
Sinan Atan (Istanbul Technical University & Ericsson Turkey R&D, Turkey); Umit Aygölü (Istanbul Technical University, Turkey)
A New Coding Scheme for Discrete Memoryless MACs with Common Rate-Limited Feedback
Selma Belhadj Amor (Telecom Paristech, France)
TER02
ROOM 12
TESTBED AND
EXPERIMENTAL RESEARCH 2
Analysis of the impact of FEC techniques on a multicast video
streaming service over LTE
Alejandro de la Fuente (Universidad Carlos III de Madrid, Spain); Carlos M. Lentisco (Universidad Politécnica de Madrid, Spain); Luis Bellido (Telematic Systems Engineering Department, Technical University
of Madrid (DIT-UPM), Spain); Raquel Perez Leal (Universidad Carlos
III de Madrid, Spain); Encarna Pastor (Universidad Politecnica de Madrid, Spain); Ana Garcia Armada (Universidad Carlos III de Madrid,
Spain)
A Reliable Multicast MAC Protocol for Wi-Fi Direct 802.11
Networks
Gul Zameen Khan (Griffith University Australia, Australia); Ruben Gonzalez (Griffith University, Australia); Eun-Chan Park (Dongguk University, Korea); Xin-Wen Wu (Griffith University, Australia)
Online AL-FEC protection over Mobile Unicast Services
Christos J Bouras (University of Patras CTI&P-Diophantus & University
of Patras, Greece); Nikolaos Kanakis (University of Patras, Greece)
Delay Metrics and Delay Characteristics: A Study of Four Swedish
HSDPA+ and LTE Networks
Johan Garcia, Stefan Alfredsson and Anna Brunstrom (Karlstad University, Sweden)
YoMoApp: a Tool for Analyzing QoE of YouTube HTTP Adaptive
Streaming in Mobile Networks
Florian Wamser (University of Wuerzburg, Germany); Michael Seufert
(University of Würzburg, Germany); Pedro Casas (Telecommunications Research Center Vienna (FTW), Austria); Ralf Irmer (Vodafone
Group, United Kingdom); Phuoc Tran-Gia (University of Wuerzburg,
Germany); Raimund Schatz (Telecommunications Research Center
Vienna (FTW), Austria)
WEDNESDAY, 1 JULY 2015 11.00 - 12.30
PHY03
11.00 - 12.30
SESSION CHAIR: FLORIAN KALTENBERGER
(EURECOM, FRANCE)
Testbed for a LiFi System integrated in Streetlights
Victor Monzon, Matilde Sánchez-Fernández and Ana Garcia Armada (Universidad Carlos III de Madrid, Spain); Antonio Royo (Uvax
Concepts, Spain)
Resource sharing between neighboring nodes in heterogeneous
Wireless Sensor Networks
Alessandro Pagani (University of Bologna, Italy); Konstantin Mikhaylov (University of Oulu, Finland)
Optimal dosimeter deployment into a smart city IoT platform for
wideband EMF exposure assessment
Luis Diez, Laura Rodriguez de Lope and Ramón Agüero (University
of Cantabria, Spain); Yoann Corre, Julien Stephan and Mathieu Brau
(SIRADEL, France); Sam Aerts, Gunter Vermeeren and Luc Martens
(Ghent University, Belgium); Wout Joseph (Ghent University/iMinds,
Belgium)
Experimental Validation of Autonomic Traffic Engineering
Vassilis Foteinos, Kostas Tsagkaris, Michalis Michaloliakos, Giorgos
Poulios, Theoni Petropoulou, Aristotelis Margaris, Konstantinos Petsas
and Panagiotis Demestichas (University of Piraeus, Greece)
Single SDR Multiple Primary & Secondary Users Emulation Platform
Stefanos Papadakis and Antonis Makrogiannakis (FORTH-ICS, Greece); Manolis Surligas (University of Crete & Foundation for Research
and Technology - Hellas, Institute of Computer Science, Greece); Pantelis Papadakis (FORTH-ICS, Greece)
21
WEDNESDAY, 1 JULY 2015 16.30 - 18.00
SPS09
INTRODUCING THE 5G-INFRASTRUCTURE-PPP - LAUNCHING THE EUROPEAN
5G INITIATIVE - PART I
SPS07
COST HIGHLIGHT - OPTIMAL END-TO-END
MULTIMEDIA COMMUNICATION NETWORKS
ROOM MOLIÈRE 16.30 - 18.00
SESSION CHAIR: D KENNEDY (EURESCOM, GERMANY)
SESSION CHAIR: RALF STUBNER (COST ASSOCIATION, BELGIUM)
5G-PPP Introduction from European Commission
Bernard Barani (European Commission, Belgium)
COST in a nutshell
Ralf Stubner (COST Association, Belgium)
5G-PPP Introduction from Industry Association
Werner Mohr (Nokia Siemens Networks, Germany)
Analysis of Cellular Networks: A Novel Method Based on Spatial
Transformations
David González G and Jyri Hämäläinen (Aalto University, Finland)
5G Exchange (5GEx) - Multi-domain Orchestration for Software
Defined Infrastructures
Carlos J. Bernardos (Universidad Carlos III de Madrid, Spain); Olivier D Dugeon (Orange Labs & France Telecom, France); Alex Galis
(University College London, United Kingdom); Donal Morris (RedZinc,
Ireland); Csaba Simon (Budapest University of Technology and Economics, Hungary); Robert Szabo (Ericsson Hungary Ltd. & Budapest
University of Technology and Economics, Hungary)
Converged Heterogeneous Advanced 5G Cloud-RAN Architecture
for Intelligent and Secure Media Access
Eduard Escalona (Fundació i2CAT, Internet i Innovació Digital a Catalunya, Spain)
User Mobility Modelling in the Context of Mobile Network Optimisation
Dennis M. Rose (Technische Universität Braunschweig, Germany);
Sören Hahn (Technische Universität Braunschweig & Institut für Nachrichtentechnik, Germany); Thomas Kürner (Technische Universität
Braunschweig, Germany)
Towards Quality of Sensory Experience in Multimedia
He Xu (EPFL, Switzerland); Fernando Pereira (Instituto Superior de Engenharia de Lisboa & Instituto de Telecomunicações, Portugal); Christian Timmerer (Alpen-Adria-Universität Klagenfurt, Austria); Touradj
Ebrahimi (Ecole Polytechnique Fédérale de Lausanne, Switzerland)
SELFNET Framework for Self-Organized Network Management in
Virtualised and Software Defined Networks
Jose Maria Alcaraz Calero (University of the West of Scotland &
School of Computing, United Kingdom); Qi Wang (University of the
West of Scotland, United Kingdom); Maria Barros (Eurescom GmbH,
Germany)
Quality of Experience assessment methodologies in next generation MPEG video compression standards
Jing Li (University of Nantes & IRCCyN, France); Martin Rerabek
(EPFL, Switzerland); Patrick Le Callet (Université de Nantes, France)
WIN06
SPS08
ROOM 9
INTERFERENCE MANAGEMENT
16.30 - 18.00
ROOM 10-11
OPPORTUNISTIC
AND COOPERATIVE COMMUNICATIONS
16.30 - 18.00
SESSION CHAIR: ANA GARCIA ARMADA
(UNIVERSIDAD CARLOS III DE MADRID, SPAIN)
SESSION CHAIR: SERGIO PALAZZO
(UNIVERSITY OF CATANIA, ITALY)
Downlink Cross-Tier Interference Pricing and Power Control in
OFDMA HetNets
Guodong Zhang (South East University, P.R. China); Tian Liang and
Wei Heng (Southeast University, P.R. China); Chao Meng (Southeast
University & National Mobile Communication Research Laboratory,
P.R. China); Jinming Hu (Southeast University, P.R. China)
In-network reconstruction of jointly sparse signals with ADMM
Javier Matamoros (Centre Tecnologic de Telecomunicacions de Catalunya, Spain); Sophie Fosson and Enrico Magli (Politecnico di Torino,
Italy); Carles Antón-Haro (Centre Tecnologic de Telecomunicacions de
Catalunya (CTTC), Spain)
Interference Coordination Method for CSI Improvement in LTE Uplink
with Carrier Aggregation
Maria Lema, Mario Garcia-Lozano and Silvia Ruiz Boqué (Universitat
Politècnica de Catalunya, Spain)
Iterative Power Control to Mitigate the Interference between D2D and
CDMA Uplink Services
Hyung-sub Kim (ETRI, Korea)
Modeling Non-Uniform D2D Distributions in Downlink Cellular
Networks
Ashraf Al-Rimawi and Davide Dardari (University of Bologna, Italy)
Cross-Layer Approach for Asymmetric Traffic Accommodation in FullDuplex Wireless Network
Hassan Malik, Mir Ghoraishi and Rahim Tafazolli (University of Surrey,
United Kingdom)
Cramer Rao Lower Bound for Multi-Source Localization in Spatial Correlated Environment
George Arvanitakis (Eurecom, France); Ioannis Dagres (University of
Athens, Greece); Florian Kaltenberger (Eurecom, France); Andreas
Polydoros (University of Athens, Greece)
Epidemic information dissemination in opportunistic scenarios: a realistic model
Laura Galluccio (DIEEI, Italy); Beatriz Lorenzo (University of Vigo,
Spain); Savo Glisic (University of Oulu, Finland); Chiara Buratti, Colian Giannini and Roberto Verdone (University of Bologna, Italy)
Cost-Efficient Power Allocation in OFDMA Cognitive Radio Networks
Salvatore D’Oro (CNIT Research Unit at University of Catania & CNIT UdR Catania, Italy); Panayotis Mertikopoulos (French National Center
for Scientific Research (CNRS) & Laboratoire d’Informatique de Grenoble, France); Aris Moustakas (University of Athens, Greece); Sergio
Palazzo (University of Catania, Italy)
Experimental Study on Cyclostationary Feature and Eigenvalue based
Algorithms for Spectrum Sensing
Amor Nafkha (CentraleSupélec, France); Babar Aziz (IFSTTAR, LEOST,
Villeneuve D’Ascq, France); Malek Naoues (CentraleSupelec, France);
Adrian Kliks (Poznan University of Technology, Poland)
22
ROOM 5
NEXT GENERATION NETWORKING
16.30 - 18.00
OPN02
ROOM 6 - 7
OPTICAL NETWORKS
16.30 - 18.00
SESSION CHAIR: LAURENT DUSSOPT (CEA, LETI, MINATEC, FRANCE)
SESSION CHAIR: RAUL MUÑOZ (CTTC, SPAIN)
Application of Transmitarray Antennas for Indoor Mapping at Millimeter-Waves
Anna Guerra (CNIT - University of Bologna, Italy); Francesco Guidi
(University of Bologna, Italy); Antonio Clemente (CEA-LETI Minatec,
France); Raffaele D’Errico (CEA, LETI, Minatec Campus & Univ\. Grenoble-Alpes, France); Laurent Dussopt (CEA, LETI, Minatec, France);
Davide Dardari (University of Bologna, Italy)
Software Reconfigurable PONs Utilizing Digital Filter Multiple Access
Jianming Tang (Bangor University, United Kingdom); Mario Bolea
(Universidad Politécnica de Valencia, Spain); Roger Giddings and
Xiao Duan (Bangor University, United Kingdom)
Millimeter-Wave Electromagnetic Field Exposure from Mobile
Terminals
Anda Guraliuc (University of Rennes 1, France); Maxim Zhadobov
(University of RENNES 1, France); Ronan Sauleau (University of
Rennes 1, France); Loic Marnat (CEA, France); Laurent Dussopt (CEA,
LETI, Minatec, France)
Performance evaluation of the MmWave Small Cells communication system in MU-MIMO mode
Alexander Maltsev (Intel Corporation & University of Nizhny Novgorod,
Russia); Andrey Pudeyev and Ilya Bolotin (Intel, Russia); Ali Sadri (Intel & President and Chairman of WiGig Alliance, USA); Alexei Davydov
and Gregory Morozov (Intel Corp., Russia)
Base-Station Positioning for Heterogeneous Systems with Coverage, Capacity and Cost Criteria
Georgia E. Athanasiadou, George Tsoulos and Dimitra Zarbouti (University of Peloponnese, Greece)
Spectrum Occupancy Measurements for Different Urban Environments
Akram Al-Hourani (RMIT University, Australia); Vladimir Trajkovic
(Australian Communications and Media Authority, Australia); Sathyanarayanan Chandrasekharan and Sithamparanathan Kandeepan
(RMIT University, Australia)
APS02
ROOM 12
WIRELESS NETWORKS
16.30 - 18.00
SESSION CHAIR: OLABISI EMMANUEL FALOWO,
UNIVERSITY OF CAPE TOWN, SOUTH AFRICA
Asset Tracking Architecture with Bluetooth Low Energy Tags and ad
hoc Smartphone Applications
Igor Bisio, Andrea Sciarrone and Sandro Zappatore (University of Genoa, Italy)
Impacts of the Packet Scheduling on the Performance of Erasure Codes: Methodology and Application to GLDPC-Staircase Codes
Ferdaouss Mattoussi (Institut Fresnel, GSM Research Team, France);
Roca Vincent (INRIA Rhone-Alpes, France); Bessem Sayadi (Alcatel-Lucent Bell-Labs, France)
QoMOSN - On the Analysis of Traffic and Quality of Experience in Mobile Online Social Networks
Pedro Casas, Pierdomenico Fiadino and Mirko Schiavone (Telecommunications Research Center Vienna (FTW), Austria)
The Need for a Control Orchestration Protocol in Research Projects on
Optical Networking
Ricard Vilalta (CTTC, Spain); Victor Lopez (Telefonica, Spain); Arturo
Mayoral (CTTC, Spain); Noboru Yoshikane (KDDI, Japan); Marco
Ruffini (CTVR, Trinity College Dublin, Ireland); Domenico Siracusa
(CREATE-NET, Italy); Ricardo Martinez (CTTC, Spain); Thomas Szyrkowiec (ADVA Optical Networking & Technische Universität München,
Germany); Achim Autenrieth (ADVA Optical Networking, Germany);
Shuping Peng (University of Bristol, United Kingdom); Ramon Casellas (Centre Tecnologic de Telecomunicacions de Catalunya (CTTC),
Spain); Reza Nejabati and Dimitra Simeonidou (University of Bristol,
United Kingdom); Xiaoyuan Cao and Takehiro Tsuritani (KDDI R&D
Laboratories, Inc., Japan); Itsuro Morita (KDDI R&D Laboratories,
Japan); Juan Pedro Fernández-Palacios (Telefónica I+D, Spain);
Raul Muñoz (CTTC, Spain)
Control Plane Solutions for Sliceable Bandwidth Variable Transceivers in Elastic Optical Networks
Ramon Casellas (Centre Tecnologic de Telecomunicacions de Catalunya (CTTC), Spain); Filippo Cugini (CNIT, Italy); Ricardo Martinez
(CTTC, Spain); Francesco Paolucci (Scuola Superiore Sant’Anna,
Italy); Raul Muñoz (CTTC, Spain); Piero Castoldi (Scuola Superiore
Sant’Anna, Italy); Ricard Vilalta (CTTC, Spain)
100G Beyond Ethernet Transport for Inter- and Intra-DCN communication with Solutions and Optical Enabling Technologies in the ICT
STRAUSS Project
Shuangyi Yan, Shuping Peng, Yan Yan, Bijan Rahimzadeh Rofoee, Yi
Shu, Emilio Hugues-Salas, Georgios Zervas and Dimitra Simeonidou
(University of Bristol, United Kingdom); Michela Svaluto Moreolo
(Centre Tecnològic de Telecomunicacions de Catalunya (CTTC),
Spain); Josep M. Fabrega (Centre Tecnologic de Telecomunicacions
de Catalunya, Spain); Laia Nadal Reixats (CTTC, Spain); Christoph Kottke (Fraunhofer Heinrich Hertz Institute, Germany); Michael
Schlosser (Fraunhofer-Institute for Telecommunications Heinrich-Hertz-Institut, Germany); Felipe Jimenez Arribas (Telefónica I+D,
Spain); Victor Lopez (Telefonica, Spain); Masato Nishihara (Fujitsu
Limited, Japan); Toshiki Tanaka and Ryo Okabe (Fujitsu Laboratories Ltd., Japan); Tomoo Takahara and Jens C. Rasmussen (Fujitsu
Laboratories Limited, Japan); Yuki Yoshida and Ken’ichi Kitayama
(Osaka University, Japan); Pablo Jesus Argibay-Losada (SUNY at
Buffalo, USA)
PHY04
IDEALIST data plane solutions for elastic optical networks
Patricia Layec (Alcatel-Lucent Bell Labs France, France); Arnaud
Dupas (Alcatel-Lucent France, France); Markus Nölle (Fraunhofer
Institute for Telecommunication, HHI, Germany); Johannes K. Fischer
(Fraunhofer Heinrich-Hertz-Institute, Germany); Colja Schubert
(Fraunhofer Heinrich-Hertz-Institut, Germany); Josep M. Fabrega
(Centre Tecnologic de Telecomunicacions de Catalunya, Spain);
Michela Svaluto Moreolo (Centre Tecnològic de Telecomunicacions
de Catalunya (CTTC), Spain); Nicola Sambo (Scuola Superiore
Sant’Anna, Italy); Gianluca Meloni (Scuola Superiore Sant’Anna
CEIICP, Italy); Francesco Fresi (Scuola Superiore Sant’Anna, Italy);
Antonio Napoli, Danish Rafique and Marc Bohn (Coriant R&D GmbH,
Germany); Antonio D’Errico (Ericsson, Italy); Talha Rahman (Eindhoven University of Technology, Eindhoven, The Netherlands); Emilio
Hugues-Salas, Yan Yan, Shuangyi Yan, Georgios Zervas and Dimitra
Simeonidou (University of Bristol, United Kingdom); Alexandros
Stavdas and Chris Matrakidis (University of Peloponnese, Greece);
Theofanis G. Orphanoudakis (Hellenic Open University, Greece)
23
SPS10
INTRODUCING THE 5G-INFRASTRUCTURE-PPP LAUNCHING THE EUROPEAN 5G INITIATIVE - PART II
SPS11
CELTIC-PLUS PERSPECTIVES OF NETWORK
SOFTWARISATION AS A 5G ENABLER
ROOM MOLIÈRE
SESSION CHAIR: D. KENNEDY (EURESCOM, GERMANY)
Euro-5G - D. Kennedy (EURESCOM, Germany)
SESSION CHAIRS: PETER HERRMANN
(CELTIC OFFICE, GERMANY);
PETER STOLLENMAYER
(CELTIC OFFICE, GERMANY)
5G Radio Access Network Design - A Brief Overview on the 5G-PPP Project
METIS-II
Patrick Marsch (Nokia Networks, Poland); Olav Queseth (Ericsson Research,
Sweden); Salah Eddine Elayoubi (Orange Labs & IRT SystemX, France); Michał
Maternia (Nokia Siemens Networks, Poland); Mikko A Uusitalo (Nokia Technologies, Finland); Rauno Ruismaki (Nokia Networks, Finland); Milos Tesanovic
(Samsung Electronics R&D Institute UK, United Kingdom); Alexandros Kaloxylos
(University of Peloponnisos, Greece); Icaro da Silva (Ericsson Research, Sweden); Mauro Boldi (Telecom Italia, Italy)
5G NORMA: 5G NOvel Radio Multiservice adaptive network Architecture
Simone Redana and Cinzia Sartori (Nokia Networks, Germany); Uwe Doetsch
(Alcatel-Lucent, Germany); Mark Doll (Bell Labs & Alcatel-Lucent, Germany);
Bessem Sayadi (Alcatel-Lucent Bell-Labs, France); Xavier Costa Pérez (NEC Europe Ltd, Germany); Miguel A Puente (Atos Spain, Spain); Markus Breitbach
(Deutsche Telekom, Germany); Serban Purge (Orange, France); Ignacio Berberana (Telefonica, Spain); Roberto Lambiase (Azcom Technology, Italy); Eiko
ES Seidel (Nomor Research GmbH, Germany); Simon Saunders (Real Wireless
Limited, United Kingdom); Mischa Dohler (King’s College London, United Kingdom); Hans D. Schotten (University of Kaiserslautern, Germany); Albert Banchs
(IMDEA Networks, Spain)
09.00 - 10.30
Introduction to the session and to Celtic-Plus
Peter Stollenmayer (Celtic Office)
Vision for Network Softwarisation towards 5G
Sławomir Kukliński (Orange Poland)
Vision for Network Softwarisation and security
Emmanuel Dotaro (Thales)
Research on Network Softwarisation in Celtic-Plus projects:
• COMMUNE
Slawomir Kukliński, Orange Poland)
• SASER
(Marco Hoffmann, Nokia)
Discussion on way ahead and further work (all)
Dynamically Reconfigurable Optical-Wireless Backhaul/Fronthaul for Small
Cells and C-RAN (5G-XHaul)
Eckhard Grass (IHP - Leibniz-Institut für innov ative Mikroelektronik, Germany);
Jesús Gutiérrez (IHP, Germany)
Xhaul: The 5G Integrated Fronthaul/Backhaul - Antonio de la Oliva (Universidad Carlos III de Madrid, Spain); Xavier Costa Pérez (NEC Europe Ltd, Germany);
Arturo Azcorra (University Carlos III of Madrid & IMDEA Networks, Spain); Andrea
Di Giglio (Telecom Italia, Italy); Fabio Cavaliere (Ericsson Telecomunicazioni,
Italy); Dirk Tiegelbekkers (Nokia, Germany); Johannes Lessmann (NEC Laboratories Europe, Germany); Thomas Haustein (Fraunhofer Institute for Telecommunications, Heinrich-Hertz-Institut, Germany); Alain Mourad (Interdigital Europe
Ltd, United Kingdom); Paola Iovanna (Ericsson, Italy)
Millimetre-Wave Based Mobile Radio Access Network for Fifth Generation
Integrated Communications
Maziar Nekovee (Samsung Electronics, United Kingdom); Peter von Wrycza
(Ericsson, Sweden); Maria Fresia (Intel, USA); Michael Peter (Fraunhofer HHI,
Germany); Jacek Gora (Nokia Siemens Networks, Poland); Jian Luo (Huawei
Technologies Duesseldorf GmbH, Germany); Milos Tesanovic (Samsung Electronics R&D Institute UK, United Kingdom)
FANTASTIC-5G - 5GPPP project on the air interface below 6GHz
Frank Schaich (Bell Labs, Alcatel-Lucent AG, Germany)
WIN08
ROOM 9
COGNITIVE RADIO
09.00 - 10.30
NET03
INFORMATION CENTRIC NETWORKS
ROOM 10 - 11
09.00 - 10.30
SESSION CHAIR: LI-CHUN WANG
(NATIONAL CHIAO TUNG UNIVERSITY, TAIWAN)
SESSION CHAIR: HENRIK ABRAMOWICZ
(ERICSSON, SWEDEN)
Interference Protection of Radio Astronomy Services Using Cognitive Radio Spectrum Sharing Models
Periola A Ayodele (University of Cape Town & Communications Research Group, South Africa); Olabisi Emmanuel Falowo (University of
Cape Town, South Africa)
IP Over ICN - The Better IP?
Dirk Trossen (InterDigital Europe, United Kingdom); Martin J Reed
(University of Essex, United Kingdom); Janne Riihijärvi (RWTH
Aachen University, Germany); Michael Georgiades (Primetel & PLC,
Cyprus); Nikos Fotiou (Mobile Multimedia Lab, Athens University of
Economics and Business, Greece); George Xylomenos (Athens University of Economics and Business, Greece)
Analysis of DRX Power Saving with RRC States Transition in LTE
Networks
Li-Ping Tung, Li-Chun Wang, Cheng-Wen Hsueh and Chung-Ju
Chang (National Chiao Tung University, Taiwan)
Extra-Sensing Game for Malicious Primary User Emulator Attack
in Cognitive Radio Network
Duc-Tuyen Ta (Telecom ParisTech & University of Engineering and
Technology, VNU-HN, France); Nhan Nguyen-Thanh and Philippe
Ciblat (Telecom ParisTech, France); Van-Tam Nguyen (University of
California at Berkeley, USA)
Relaxed Constraint at Cognitive Relay Network under both the
Outage Probability of the Primary System and the Interference
Constraint
Mohammed Ridouani (UH2C/EST & GREENTIC, Morocco); Aawatif
Hayar (GREENTIC/ENSEM/UH2C, Morocco); Haqiq Abdelkrim (Hassan 1 university, Morocco)
I-CAN: Information-Centric Access Networking - Architecture and
Experiments
Vasilios A. Siris (Athens University of Economics and Business, Greece); Nikos Fotiou (Mobile Multimedia Lab, Athens University of Economics and Business, Greece); Dimitrios Dimopoulos and George C.
Polyzos (Athens University of Economics and Business, Greece)
Locating the Content in the Locality: ICN Caching and Routing
Strategy Revisited
Mohammad Arifuzzaman, Keping Yu, Quang Ngoc Nguyen and Takuro Sato (Waseda University, Japan)
On Network Application Representation and Controller Independence in SDN
Pedro A. Aranda Gutierrez (Telefonica I+D, Spain); Holger Karl (University of Paderborn, Germany); Elisa Rojas (Telcaria Ideas SL,
Spain); Alexander Leckey (Intel, Ireland)
Popularity Proportional Cache Size Allocation Policy for Video
Delivery on CCN
Haipeng LI (WASEDA University, Japan); Hidenori Nakazato (Waseda
University, Japan); Andrea Detti and Nicola Blefari-Melazzi (University
of Rome «Tor Vergata», Italy)
24
SELECTED AREAS IN COMMUNICATIONS
WIN07
RELAY AND MULTIHOP NETWORKS
ROOM 5 09.00 - 10.30
ROOM 6-7 09.00 - 10.30
SESSION CHAIR: WERNER MOHR
(NOKIA SIEMENS NETWORKS, GERMANY)
SESSION CHAIR: GIUSEPPA ALFANO
(POLITECNICO DI TORINO, ITALY)
Signalling over nonlinear fibre-optic channels by utilizing both solitonic and radiative spectra
Iman Tavakkolnia and Majid Safari (University of Edinburgh, United
Kingdom)
A Simple and Efficient Multi-way Relay Network Coding Scheme
Zhanji Wu (BUPT, P.R. China); Chengxin Jiang (Beijing University of
Posts & Telecommunications, P.R. China)
Tag Signals for Early Authentication and Secret Key Generation in
Wireless Public Networks
Renaud Moliere, François Delaveau, Christiane L. Kameni Ngassa
and Claude Lemenager (Thales Communications & Security, France);
Taghrid Mazloum (Telecom ParisTech, France); Alain Sibille (Telecom
Paris Tech & ENSTA PARISTECH, France)
VANETs in 5G: A Network Science Perspective
Serguei Primak (University of Western Ontario, Canada); Oyunchimeg
Shagdar (INRIA, France); Alex Daniel (The University of Western Ontario, Canada)
Polarimetric Properties and Modeling of The Power Delay Profile
in Large Hall Scenarios
Shiqi Cheng (Université of Lille 1, France); Davy P Gaillot (University of Lille 1, France); Emmeric Tanghe (Ghent University, Belgium);
Pierre Laly (University of Lille, France); Thierry Demol (CITC-EuraRFID, France); Wout Joseph (Ghent University/iMinds, Belgium); Luc
Martens (Ghent University, Belgium); Martine Liénard (University of
Lille, France)
APS03
ROOM 12
Self-organized Multi-hop Millimeter-wave Backhaul Network: Beam
Alignment and Dynamic Routing
Honglei Miao (Intel Mobile Communication GmbH, Germany); Michael Faerber (Intel Mobile Communications, Germany)
Two-way OFDM-based Nonlinear Amplify-and-Forward Relaying:
Power Allocation
David Simmons and Justin P Coon (University of Oxford, United Kingdom)
System-level Simulation of Multihop Wireless Networks using Physical-layer Network Coding
Alister G. Burr and Mehdi M. Molu (University of York, United Kingdom); Kostas Ramantas (Iquadrat Informatica, Greece); Cheng Chen
(University of York, United Kingdom); John S Vardakas (IQUADRAT
Informatica S. L. Barcelona, Spain)
GPU-based Parallel Computing of Energy Consumption in Wireless
Sensor Networks
Massinissa Lounis (University of Bejaia, Algeria); Ahcene Bounceur
(Lab-STICC, France); Arezki Laga (University of Western Brittany,
France); Bernard Pottier (Lab-STICC, CNRS FRE, France)
THURSDAY, 2 JULY 2015 09.00 - 10.30
PHY05
TRAFFIC MODELING AND SECURITY
09.00 - 10.30
SESSION CHAIR: ROBERTO VERDONE
(UNIVERSITY OF BOLOGNA, ITALY)
Smart Meters Density Effects on the Number of Collectors in a
Smart Grid
Vahid Kouhdaragh, Daniele Tarchi, Alessandro Vanelli-Coralli and Giovanni Emanuele Corazza (University of Bologna, Italy)
Anomaly Detection of Internet Traffic using Robust Feature Selection
based on Kernel Density Estimation
Sara Faria Leal (Instituto Superior Técnico, Portugal); M. Rosário Oliveira (Universidade Técnica de Lisboa, Instituto Superior Técnico and
CEMAT, Portugal); Rui Valadas (Instituto de Telecomunicações and
DEEC, Instituto Superior Técnico, Universidade de Lisboa, Portugal)
Active Queue Management for Congestion Avoidance in Multimedia
Streaming
Seyed Ehsan Ghoreishi and Hamid Aghvami (King’s College London,
United Kingdom); Hadi Saki (Kingston University London & Wireless &
Multimedia Networking Res. Group, United Kingdom)
Federated Identity in Real-life Applications
Marcin Niemiec and Weronika Kolucka-Szypula (AGH University of
Science and Technology, Poland)
25
POS01
POSTER SESSION 1
POSTERS
TUESDAY, 30 JUNE 2015 14:00 -14:30 FOYER DEBUSSY
P01 -General Requirements and Security Architecture for
Mobile Phone Anti-Cloning Measures
P10 -Quality of Experience Evaluation and Control in
Cognitive Future Internet Networks
Igor Gepko (Ukrainian State Centre of Radio Frequencies,Ukraine)
Lorenzo Ricciardi Celsi and Stefano Battilotti (University of Rome
La Sapienza, Italy); Silvia Canale (Sapienza Università di Roma,
Italy); Francesco Delli Priscoli (University of Rome, ‘‘La Sapienza’’, Italy); Claudio Gori Giorgi and Salvatore Monaco (University of Rome La Sapienza, Italy); Vincenzo Suraci (Università
degli studi e-Campus, Italy)
P02 -On Interference Management Strategy for High
Throughput Satellite Communication Systems
Rosalba Suffritti and Niccoló Privitera (Mavigex, Italy); Zoltán
Katona and Svilen Dimitrov (German Aerospace Center (DLR),
Germany); Gabriele Boccolini (GRADIANT, Spain); Stephan
Jaeckel (Fraunhofer Heinrich Hertz Institute, Germany); Argyrios Kyrgiazos and Barry Evans (University of Surrey, United
Kingdom); Juan Manuel Rodriguez Bejarano (Thales Alenia
Space & Thales Alenia Space Spain, Spain); Ana Yun (Thales
Alenia Space España, Spain); Oriol Vidal (EADS Astrium,France)
P03 -Energy Efficient Allocation of Unused Radio
Resources in OFDMA Systems
Mohammad Reza Sabagh, Mehrdad Dianati and Rahim
Tafazolli (University of Surrey, United Kingdom); Mehri Mehrjoo
(University of Sistan and Baluchestan, Iran)
P04 -Hybrid Scheme for Spectrum Sensing: Experi-
mental Analysis
Amor Nafkha (CentraleSupélec, France); Malek Naoues
(CentraleSupelec, France); Krzysztof Cichoń and Adrian Kliks
(Poznan University of Technology, Poland); Babar Aziz (IFSTTAR, LEOST, Villeneuve D’Ascq, France)
P05 - Statistical Analysis of Optical Transport Networks:
in LTE-A Heterogeneous Networks
Alexandros-Apostolos A Boulogeorgos, Georgia D. Ntouni and
Dimitrios S. Karas (Aristotle University of Thessaloniki, Greece);
Theodoros Tsiftsis (Technological Educational Institute of Central Greece, Greece); Fotis Foukalas (Athena Research and Innovation Centre, Greece); George K. Karagiannidis (Aristotle
University of Thessaloniki, Greece); Christos Thomos (Athena
Research and Innovation Centre, Greece)
P12 -The METIS 5G System Concept
Hugo M Tullberg (Ericsson Research, Sweden); Petar Popovski
(Aalborg University, Denmark); David Gozalvez-Serrano
and Peter Fertl (BMW Group Research and Technology, Germany); Andreas Höglund (Ericsson, Sweden); Olav Queseth and
Mikael Fallgren (Ericsson Research, Sweden); Thomas Rosowski (Deutsche Telekom AG, Germany); Ömer Bulakci (Huawei
European Research Center (ERC) & Aalto University School
of Electrical Engineering, Germany); Zexian Li and Mikko A
Uusitalo (Nokia Technologies, Finland); Krystian Pawlak
(Nokia Networks, Poland); Genevieve Mange (Alcatel Lucent
Bell Labs, Germany)
Characterization and Application
Sudhir K Routray (Instituto de Telecomunicações & IT, Portugal); Claunir Pavan (Federal University of Fronteira Sul, Brazil);
Gokhan Sahin (Miami University, USA); Jose Rocha (University
of Aveiro, Portugal); Armando Pinto (Instituto de Telecomunicações - Universidade de Aveiro, Portugal)
P13 -An OFDM-IDMA Scheme for an Overlay Cognitive
P06 -Real-time Forward Error Correction over Burst-loss
channel
P14 -Case-Based Cognitive Cellular Systems for Tem-
porary Events
Nils Morozs (University of York, United Kingdom); Tim Clarke
(York University, United Kingdom); David Grace (University of
York, United Kingdom)
Takashi Takeuchi, Ryosuke Fujiwara and Makoto Katagishi
(Hitachi, Ltd., Japan)
P07 -On Prioritized Uplink Transmission in Cognitive
Radio Mesh Networks
Yong Yao and Adrian Popescu (Blekinge Institute of Technology, Sweden)
P08 -Shared Cache as a Service in Future Converged
Fixed and Mobile Network
Zhe Li and Yaning Liu (JCP-Connect, France); Jean-Charles
Point (JCP-Consult, France); Selami Çiftçi and Onur Eker
(Argela Technologies, Turkey); Marco Savi (Politecnico di
Milano, Italy); Massimo Tornatore (Politecnico di Milano &
University of California, Davis, Italy); Giacomo Verticale
(Politecnico di Milano, Italy)
P09 -Architecture and Emulation Environment for Video
26
P11 -MIMO Link Adaptation with Carrier Aggregation
Streaming over Large-Scale Multi-Domain SDN
Selin Yilmaz, Kadir Tolga Bağcı and A. Murat Tekalp
(Koc University, Turkey)
Radio System
Héctor Poveda and Fernando Merchan Spiegel (Universidad
Tecnológica de Panamá, Panama)
P15 -Cross-layer signalling support for adaptive video
encoding and transmission
Cyril Bergeron (THALES Communictaions, France); Lorenzo
Iacobelli (Thales, France); Esa Piri and Janne Vehkaperä
(VTT Technical Research Centre of Finland, Finland)
P16 -LTE small cell dual-band frequency agile antenna
design optimized for carrier aggregation
Cyril Jouanlanne (CEA, France); Christophe Delaveaud (CEA-LETI, France)
P17 -Q-band Point to Multipoint Backhaul Deployment:
the SARABAND Case Study
Ruth Vilar (Universitat Politecnica de Valencia, Spain); Javier
Marti (Universidad Politecnica de Valencia, Spain); Antonio Ramirez and Javier Bou (Fibernova Systems, Spain); François
Magne (Bluwan S.A., France)
POS02
POSTER SESSION 2
P18 - SLALOM: Removing the barriers for the cloud SLA
P26 - mmWave MIMO Channel Sounding for 5G -
Technical Challenges and Prototype System
Aimilia Bantouna (University of Piraeus & Telecommunication
Networks and integrated Services Laboratory, Greece);
Leonidas Kanellos and Panagiotis Demestichas (University of
Piraeus, Greece); Daniel Field and Oliver Barreto (ATOS,
Spain); Dimosthenis Kyriazis (National Technical University of
Athens, Greece); Emmanuel Protonotarios (Telecommunications
Laboratory, Greece); Theodora Varvarigou (National Technical
University of Athens, Greece); Debora Stella and Gianmarco
Rinaldi (Birds&Birds, Italy); Breda Beyer and David Bicket
(Cloud Industry Forum (CIF), United Kingdom)
Hervé Oudin (Keysight Technologies, France)
P19 - Energy and spectrum trade-off for uncoded MQAM
grated satellite and terrestrial access networks
Luc Ottavj and Emmanuel Duros (OneAccess Networks,
France); Javier Perez-Trufero (Avanti Communications, United
Kingdom); Christian Niephaus (Fraunhofer Gesellschaft, Germany)
adoption
in energy constrained system
Randa Jaouadi and Guillaume Andrieux (University of Nantes,
France); Jean-Yves Baudais (CNRS, France); Jean Francois
Diouris (University of Nantes, France)
P27 - Experimental
Testbed for Non-Orthogonal
Multicarrier Transmission in Satellite Communication Systems
Johannes Dommel (Fraunhofer Heinrich Hertz Institute,
Germany)
P28 - MPTCP-based Intelligent Gateways for inte-
P29 - Shared Access Terrestrial-Satellite Backhaul
Network enabled by Smart Antennas: SANSA
Dennis Schwerdel and Paul Müller (University of Kaiserslautern,
Germany)
Xavier Artiga (Centre tecnològic de Telecomunicacions de
Catalunya (CTTC), Spain); Ana Pérez-Neira (Centre Tecnologic de Telecomunicacions de Catalunya Castelldefels, Spain)
P21 - SDN/NFV supported QoE Management (SDN/NFV-
P30 - Real-time MIMO channel Sounder based on a
highly flexible Software Architecture
Pierre Laly (University of Lille, France); Emmeric Tanghe (Ghent
University, Belgium); Davy P Gaillot (University of Lille 1,
France); Eric P. Simon (University of Lille, France); Wout
Joseph (Ghent University/iMinds, Belgium); Martine Liénard
(University of Lille, France); Luc Martens (Ghent University,
Belgium)
P20 - ToMaTo - A flexible topology-oriented networking
testbed
ISAAR)
Marcus Eckert and Thomas Martin Knoll (Chemnitz University
of Technology, Germany)
P22 - Disruptive Radio Interface Proof of Concept for
Satellite Access Network
Rosalba Suffritti and Niccoló Privitera (Mavigex, Italy)
P23 - Design of a VANET Testbed based on Cloud
Computing
Thouraya Hajji and Bargaoui Hichem (ESPRIT, Tunisia)
P31 - iCIRRUS: intelligent Converged network conso-
lidating Radio and optical access aRound USer
equipment
in Computationally Efficient Multiuser MIMO Design
Tetsuki Taniguchi (University of Electro-Communications,
Japan); Yoshio Karasawa (The University of Electro-Communications, Japan)
Nathan J Gomes and Huiling Zhu (University of Kent, United
Kingdom); Philippos Assimakopoulos (University of Kent &
Communications Research group, United Kingdom); Anthony
Magee (ADVA Optical Networking, United Kingdom); Volker
Jungnickel (Fraunhofer Heinrich Hertz Institute & Technische
Universität Berlin, Germany); Michael Parker and Chathura
Sarathchandra Magurawalage (University of Essex, United
Kingdom)
P25 - Reach Extension of an IR-UWB over Fiber System
via OOK Randomization and SOA Amplification
P32 - Over-the-air demonstration for RRH-based LTE
access with the use of parasitic antenna arrays
Haidar Taki (Faculty of Sciences I, Lebanese University,
Lebanon); Stéphane Azou (CNRS/Lab-STICC & Ecole
Nationale d’Ingénieurs de Brest (ENIB), France); Ali Hamie
(Arts Sciences & Technology University in Lebanon (AUL),
Lebanon); Ali Al Housseini (Lebanese University-Liban,
Lebanon); Ali Alaeddine (Lebanese University - Hadath Lebanon, Lebanon); Ammar Sharaiha (ENIB, France)
Dimitrios Ntaikos, Bobby Gizas and Constantinos B. Papadias
(Athens Information Technology, Greece); Laurent Roullet and
Francois Taburet (Alcatel-Lucent Bell Labs, France)
P24 - Subarray Grouping Based on Antenna Correlation
POSTERS
WEDNESDAY, 1 JULY 2015 14:00 -14:30 FOYER DEBUSSY
P33 - m-QoS and m-QoE for Medical Video Streaming
over 4G and Beyond Smallcells
Ikram Rehman and Nada Y Philip (Kingston University, United
Kingdom)
P34 - Performance Analysis of DCO-OFDM Systems in
the Presence of Realistic Indoor Visible Light
Channels
Anil Yesilkaya and Huseyin Alsan (Kadir Has University,
Turkey); Farshad Miramirkhani (Özyeğin University, Turkey);
Erdal Panayirci and Habib Senol (Kadir Has University,
Turkey); Murat Uysal (Ozyegin University, Turkey)
27
W01
JOINT CLEEN AND ACROSS WORKSHOP ON CLOUD TECHNOLOGY
AND ENERGY EFFICIENCY IN MOBILE COMMUNICATIONS
WORKSHOPS
MONDAY, 29 JUNE 2015
09:00-17:30
ROOM 5
WORKSHOP ORGANIZERS:
DARIO SABELLA
TELECOM ITALIA, ITALY
ARIANNA MORELLI
TELECOM ITALIA, ITALY
EMILIO CALVANESE STRINATI
CEA-LETI, FRANCE
HANS VAN DEN BERG
UNIVERSITY OF TWENTE, THE NETHERLANDS
ACROSS:
Virtualization of hard- and software (e.g. SaaS, IaaS) and the recent emergence of advanced cloud concepts like cloud brokerage, cloud migration,
cloud-bursting and cloud-bridging, opens up nearly unbounded possibilities for the creation and implementation of new and innovative services.
A fundamental characteristic is that services combine and integrate functionalities of other services. A challenging factor in service reliability and quality
provisioning here is the highly dynamic nature, imposing a high degree of uncertainty in many respects (e.g., in terms of number and diversity of the
service offerings, the system load of services suddenly jumping to temporary overload, demand for cloud resources, etc.). This raises the urgent need
for online control methods with self-learning capabilities that quickly adapt to - or even anticipate to - changing circumstances. The workshop addresses
fundamental scientific challenges for autonomous, quality-based control in such complex service environments driven and enabled by advanced
virtualization and cloud concepts. Particular focus will be on: (i) methods and algorithms for quality-driven autonomous control of advanced cloud
infrastructures and services, (ii) concepts and methods for QoS/QoE monitoring and prediction (as a crucial element for quality-driven autonomous
control), and (iii) pricing and competition in the future cloud ecosystem.
See also: European COST Action ACROSS “Autonomous Control of Advanced Cloud Infrastructures and Services” (http://www.cost-across.nl/).
CLEEN2015:
This workshop explores novel concepts to allow for flexibly centralised radio access networks using cloud-processing based on open IT platforms,
to allow for a high quality of experience for mobile access to cloud-processing resources and services, and to allow a future network evolution focused
on energy efficiency and cost-effectiveness. In fact, all future innovative network solutions will be conceived and deployed with a long term perspective
of sustainability, both in terms of energy consumption of mobile network (and related interoperability with terminals) and cost efficiency of the different
deployment and management options. This requires new concepts for the design, operation, and optimization of radio access networks, backhaul
networks, operation and management algorithms, and architectural elements, tightly integrating mobile networks and cloud-processing. This workshop
will cover technologies across PHY, MAC, and network layer, it covers technologies which translate the cloud-paradigm to the radio access and
backhaul network, and analyse all the network evolutions from the energy efficiency perspective. It will study the requirements, constraints, and implications for mobile communication networks, and also potential relationship with the offered service, both, from an academic and industrial point of view.
See also: CLEEN2015 website (www.ict-ijoin.eu/cleen2015).
AFTERNOON SESSION
MORNING SESSION
09.00 - 09.15 Welcome/Opening
Hans van den Berg ,TNO, University of Twente,
The Netherlands
09.15 - 10.00 Paths into the Cloud:
A Mobile Networks Perspective
Michael Jarschel, Nokia, Germany
10.00 - 10.30 Dynamic QoS Control for Cloud
Services Orchestration
Rob van der Mei , CWI / VU University Amsterdam, The Netherlands
10.30 - 11.00
COFFEE BREAK
14.10 - 14.50 Invited talk (iJOIN project):
“Fronthaul and Backhaul Requirements
of Flexible Centralization in Cloud Radio Access Networks”
Jens Bartelt, Technical University of Dresden, Germany
14.50 - 15.30 invited talk (TROPIC project):
“Edge-cloud architecture and solutions for mobile computing offloading”
Josep Vidal, Universitat Politecnica
de Catalunya, Spain
11.00 - 11.30 Non-Cooperative Computation Offloading in Mobile Cloud Computing
15.30 - 16.00 COFFEE BREAK
Valeria Cardellini, University of Roma
“Tor Vergata”, Italy
16.00 - 16.40 invited talk (CROWD project):
11.30 - 12.00 Interoperable Data Management
Approaches for Cloud
and Mobile Computing
“Energy efficiency in very dense wireless networks through opportunistic radio resource utilization”
Attila Kertesz, University of Szeged, Hungary
16.30 - 17.30 FINAL JOINT PANEL (CLEEN2015
12.00 - 12.30 Towards a Fluid Cloud. an Extension
of the Cloud into the Local Network Steven Latré, University of Antwerp, Germany
12.30 - 14.00 LUNCH BREAK
28
33
14.00 - 14.10 Welcome by workshop chair
Vincenzo Mancuso, IMDEA Network, Spain
+ ACROSS).
Moderator: Emilio Calvanese, CEA Leti, France
Panelists: Jens Bartelt, iJOIN project, Technical University of Dresden, Germany
Josep Vidal, TROPIC project, Universitat Politecnica de Catalunya, Spain
Vincenzo Mancuso, CROWD project, IMDEA, Spain
Hans van den Berg, ACROSS project, University of Twente, The Netherlands
WORKSHOP ON 5G TESTBEDS
AND HANDS-ON EXPERIMENTAL RESEARCH
09:00-17:30
ROOM 12
INGRID MOERMAN
IMINDS, BELGIUM
TIMUR FRIEDMAN
UNIVERSITÉ PIERRE
ET MARIE CURIE, FRANCE
JACQUES MAGEN
INTERINNOV, FRANCE
Abstract:
The workshop is jointly organized by the AmpliFIRE, CREW, and WiSHFUL projects, which are part of the FIRE initiative, with participation from
the NetWorld2020 European Technology Platform and from the 5G Infrastructure Association.
The morning session is focused on initiating a general discussion on 5G and experimental test beds. This involves strategic presentations on
the future of 5G, discussions on how experimental research and test beds could help the take up and successful development of 5G, and also
how 5G technology could support the evolution and/or integration of test beds. We will address both technical and policy issues, centered on
the questions of WHAT needs to be done and HOW this can be achieved. The morning session ends with a panel discussion with the objective
of coming to some conclusions on possible directions to follow.
The afternoon session is dedicated to discussing specific technical issues that are on the table at this stage, and the steps that can be taken
to resolve these issues in order to contribute to the technology evolution presented during the morning session. We present a hands-on tutorial
of the OneLab experimental facility, allowing participants experience in navigating the OneLab portal and deploying experiments across our
heterogeneous platforms. For this tutorial, we have two experiments set up for users in order to demonstrate the functionalities of the FIT IoT-Lab
and NITOS-Lab platforms. For the first experiment on IoT-Lab, they will access the OneLab portal and reserve IoT-Lab mobile nodes (located at
Lille, Strasbourg and Grenoble sites), and the experiment results will show a mobility pattern for each robot. The third experiment will allow users
to reserve NITOS nodes and use the OMF (Control and Management Framework) framework to control the experiment. This will give users the
opportunity to learn how to use the OMF tool for experiment management and control.
AFTERNOON SESSION
MORNING SESSION
09.00 - 12.00 FIRE AND 5G - THE WAY BEYOND
09.00 - 09.15 Welcome and introduction;
presentation of the workshop
14.00 - 17.30 ENABLING INTELLIGENCE IN
HETEROGENEOUS WIRELESS
NETWORKS
09.15 - 09.45 5G Experimental Facilities in Europe - The NetWorld2020 White Paper
14.00 - 14.15 Challenges in wireless networks
Ingrid Moerman, iMinds, Belgium - CREW/WISHFUL
Antonio Manzalini, Telecom, Italia
Roberto Verdone, University of Bologna, Italy
NetWorld2020 Expert Group, editors of the white paper
Mikolaj Chwalisz, TU Berlin, Germany - CREW
14.15 - 14.30 Concrete problems/cases
Robin Leblon, nCentric, Belgium
09.45 - 10.00 FIRE portfolio: the current status
Hans Schaffers, AaltO University, Finland - AmpliFIRE
14.30 - 14.45 Solutions for these challenges
10.00 - 10.30 Federating FIRE facilities,
14.45 - 15.00 Intelligence for wireless networks
a step towards 5G testing?
Nicholas Kaminski, Trinity College Dublin, Ireland
Piet Demeester, iMinds, Belgium - Fed4FIRE
10.30 - 11.00
COFFEE BREAK
15.00 - 15.30 Machine learning for wireless networks
11.00 - 11.15OneLab
Ingrid Moerman, iMinds, Belgium - WiSHFUL
Eric Moulines, ParisTech, France
15.30 - 16.00
COFFEE BREAK
Timur Friedman, OneLab Executive Director, France
Introduction to OneLab and Industrial Innovation
capabilities on experimental platforms
16.00 - 16.30 Distributed artificial intelligence
11.15 - 11.45
FIRE+ and the 5G PPP: how to converge?
16.30 - 17.30 OneLab hands-on tutorial
Jacques Magen, Interinnov, France
AmpliFIRE and 5G infrastructure Association
Didier Bourse, Alcatel-Lucent, France
5G Infrastructure Association
WORKSHOPS
W02
for wireless networks
David Grace, Univeristy of York, UK
Timur Friedman OneLab Executive Director, France
11.45 - 12.30 Panel session (including Qs & As with
the audience): FIRE and 5G, the way
beyond - what shall we do next
and how shall we proceed?
(Representatives from AmpliFIRE, Fed4FIRE, CREW, WiSHFUL, EuWIn, 5G PPP, EC Network Technologies Unit, EC Experimental Platforms Unit)
Representatives from AmpliFIRE, Fed4FIRE, CREW/
WiSHFUL, EuWIn, 5G PPP, EC Network Technologies
Unit, EC Experimental Platforms Unit)
29
34
W03
NEXT GENERATION PUBLIC SAFETY
AND CRITICAL INFRASTRUCTURES
WORKSHOPS
09:00-17:30
ROOM 4
ISABELLE BUCAILLE
THALES COMMUNICATIONS AND SECURITY,
FRANCE
MAURIZIO CASONI
UNIVERSITY OF MODENA E REGGIO EMILIA, ITALY
TINKU RASHEED
CREATE-NET, ITALY
PIOTR TYCZKA
ITTI SP. Z O.O., POLAND
Abstract:
Public safety and critical infrastructure communications are challenged to expand their scope way beyond their original functions towards more
sophisticated devices and applications. Governments, public safety agencies and research communities are continuously working together
for making significant progress toward improving communications capabilities and critical infrastructure resilience. Next-generation mobile
technologies are the key candidate for meeting the new requirements of the public safety community. However, public safety and commercial
systems typically are designed and deployed to fulfill different needs and have different requirements, which are directly affecting the quality
of service of the communications. The unique and vital nature of public safety affects the technical decisions that are necessary to guarantee
connectivity for everyone, anywhere and anytime. Thus, recent enhancements of the 4G Long Term Evolution (LTE) in the field of public safety
communications such as device-to-device and group communications for user equipments in physical proximity accrue a great opportunity for
bringing new services and a high-level of innovation to the first responders. Significantly higher over-the-air transmission rates and architectural
enhancements are also expected with the advent of 5G communication networks to meet the operational requirements of both public safety
and commercial users.
This workshop aims at reinforcing the European research ecosystem on Public Safety and Critical Communications by strengthening the liaison between
the participating projects, facilitating the exchange of ideas between US and Europe, and helping each research group to take advantage of the results
produced by other projects, improving focus of innovation and aligning towards common goals and milestones, thus maximizing the overall impact.
AFTERNOON SESSION
MORNING SESSION
09.00 - 09.45 Keynote Speech
09.00 - 09.45 Regulatory status for public
Moderator:
I. Bucaille, Thales, France
Panel Participants:
E. Faussurier, ANFR, France
safety applications
09.45 - 10.30 Project presentation session 1
09.45 - 10.10 Absolute
I. Bucaille, Thales, France
10.10 - 10.30 PPDR-TC
M. Casoni, University of Modena
and Reggio Emilia, Italy
11.00 - 12.30 Project presentation session 2
11.00 - 11.20 Programmable IPv6 Public
Safety Networks
Janez Sterle and Mojca Volk,
University Ljubljana, Slovenia
11.20 - 11.40 Concerto
L. Iacobelli, Thales, France
11.40 - 12.00 RESCUER
Karina Villela, Fraunhofer IESE, Germany
12.00 – 12.20ESPONDER
D. Vassiliadis, Exus S.A., Greece
30
14.00 - 15.30 Panel session on Public Safety in 5G
Keynote speaker + project presenters
16.00 - 17.00 Paper Session 1
Chair. Maurizio Casoni,
University of Modena and Reggio Emilia, Italy
16.00 - 16.20 Business Models for future broadband
PPDR networks
H. Gierszal, Adam Mickiewicz University, Poland,
K. Pawlina, P. Tyczka, K.Romanowski ITTI, Poland,
D. Lavaux, Thales Communications & Security,
France,
Ch. Katsigiannis, Exus, Greece
16.20 - 16.40 Analysis of PPDR Radio Spectrum
Requirements
J. Burns, Plum Consulting, U.K.
16.40 - 17.00 Local Positioning System for first
responders
N. Joram, J. Wagner, T.U.Dresden,
T.U. Dresden, Germany
17.00 - 17.40 Paper Session 2
Chair. Isabelle Bucaille
17.00 - 17.20 Case-Based Cognitive Cellular Systems for Temporary Events
D. Grace, N. Morozs, Uni. Of York, U.K.
17.20 - 17.40 Cognitive Relaying for Airborne LTE Emergency Networks
S. Chandrasekharan, S. Kandeepan,
RMIT University, Australia
WORKSHOP ON NETWORK FUNCTION VIRTUALIZATION
AND PROGRAMMABLE NETWORKS
09:00-17:30
ROOM 9
WORKSHOP ORGANIZER:
GEORGE XILOURIS
NCSR DEMOKRITOS, GREECE
Abstract:
The advent of Network Function Virtualization (NFV), based on emerging resource and service virtualization technologies enables the dynamic
deployment and management of virtualized network functions (VNFs) within the network infrastructure. Moreover, the logical centralization of
the network control plane, separating it from the dataplane, achieved via Software Defined Networking (SDN), allows for greater network programmability and dynamicity. In this context, major European research initiatives are delving into the aspects of network service virtualization
and programmability, aiming at significant cost efficiency, introduction of new services and transformation of the networking market. A research
ecosystem of horizontal and vertical R&D actions is being formed, which examines the impact and the capabilities of virtualization and programmability across all networking domains: from core to edge and access, from wired/optical to wireless, cellular and also satellite.
This workshop aims at reinforcing this European research ecosystem by strengthening the liaison between the participating projects, facilitating
the exchange of ideas and helping each research group to take advantage of the results produced by other projects, improving focus of innovation and aligning towards common goals and milestones, thus maximizing the overall impact. The workshop will be of private nature, aiming in
extending collaborations and paving common exploitation strategies.
WORKSHOPS
W04
Participating projects:
FP7-T-NOVA: Network Functions as-a-Service over Virtualized
Infrastructures
homepage: http://t-nova.eu
FP7-UNIFY:
Unifying cloud and carrier networks
homepage: https://www.fp7-unify.eu
FP7-NETIDE: An integrated development of environment for portable
network applications : http://www.netide.eu
FP7-MCN: Mobile Cloud Networking
homepage: http://www.mobile-cloud-networking.eu/site/
H2020 VITAL: VIrtualized hybrid satellite-TerrestriAl systems for resilient
and fLexible future networks
H2020 ACINO: Application Centric IP/Optical Network Orchestration
homepage: http://www.acino.eu
FP7-FLAMINGO: NoE on Network and Service Management
http://www.fp7-flamingo.eu
H2020-5Gx: 5G exchange starting 1 October 2015
H2020-SESAME: Small Cells coordination for Multi-tenancy and Edge services
- starting 1 July 2015
MORNING SESSION
09.00 - 14.30 SESSION 1: FP7 PROJECTS
09.00 - 09.40 MCN: Mobile Cloud Networking
Thomas Bonhert, ZHAW, Switzerland
09.40 - 10.30 NETIDE: An integrated development
of environment for portable
network applications
Pedro A. Aranda Gutierrez, Telefonica, Spain
11.00 - 11.40 T-NOVA: Network Functions as-a-Service over Vitualized Infrastuctures
George Xilouris, NCRS Demokritos, Greece
AFTERNOON SESSION
14.00 - 14.30 FLAMINGO: NoE on Network
and service Management
• Benefit of NFV-based Multimedia
Delivery
• Management and Control functionality in Software
Defined Networks
Filip De Turck, iMinds, Belgium
14.30 - 17.30 SESSION 2: H2020 PROJECTS
(STARTED OR ABOUT TO START)
14.30 - 14.50 VITAL: Virtualized hybrid satellite-Terre-
trial systems for resilient
and flexible future Networks
Tinku Rasheed, Create-Net, Italy
14.50 - 15.10 ACINO: Application Centric IP/Optical Network Orchestration
Domenico Siracusa, Create-Net, Italy
15.10 - 15.30 SESAME: Small Cells Coordination
for Multi-tenancy and Edge services
Ioannis Giannoulakis, NCSR Demokritos, Greece
16.00 - 16.15 5Gx: 5G Exchange
Robert Szabo networks, Ericsson, Hungary
16.15 - 17.20 Break out Session (private).
Investigation for collaboration areas
Topics
• Orchestration and Programmability
11.40 - 12.30 UNIFY: Unifying world
• Infrastructure Virtualization
and Management
and carrier networks
Robert Szabo networks, Ericsson, Hungary
17.20 - 17.30
WRAP-UP
31
W05
WWRF WORKSHOP - A BUSINESS AND ENTERPRISE
PERSPECTIVE ON THE UPCOMING 5G ERA
WORKSHOPS
09:00-12:30
ROOM 10
CHRISTOS POLITIS
KINGSTON UNIVERSITY LONDON, UK
PANAGIOTIS DEMESTICHAS
UNIVERSITY OF PIRAEUS, GREECE
NIGEL JEFFERIES
HUAWEI, UK
Abstract:
With the rapid development of mobile communications, driven by people’s exploding need for high-bandwidth wireless services and by the
development of new markets such as the Internet of Things, smart terminal manufacturers, operators and other related industry stakeholders
are faced with tantalizing dilemmas over spectrum, resources, energy, and profits. These needs will be met by creating a range of new technological capabilities that will drive innovation and business development. This will support a dependable future Internet of humans, knowledge
and things and the development of a service universe. The challenge of this workshop is to identify the key business challenges that are posed
by emergence of such 5G network technologies in the era beyond 2020. The workshop will focus on discussions of innovation, business and
enterprise challenges. The following areas, among others, will be covered during the workshop:
• Social, business and innovation challenges for the 5G
• Innovation management and new business opportunities
• Enabling applications by means of 5G technologies
• The impact of new air interfaces and enabling technologies
• Ubiquitous networks
• Intelligent regulation beyond 2020
• Novel system concepts and architectures based on centralized and/or distributed principles
• 5G requirements (e.g., in terms of performance, regulation, spectrum, etc.)
MORNING SESSION
09.00 - 09.15Introduction
Christos Politis, Kingston University London, UK
09.15 - 09.30 WWRF Overview
Nigel Jefferies, Huawei, UK
09.30 - 10.00 US Efforts towards 5G.
Doug Sicker, Carnegie Mellon University, USA
10.00 - 10.30 Can the Law Keep Up with Technology...
The Social Challenge of 5G
Barbara Pierscionek, Kingston University London, UK
32
11.00 - 11.30 5G Vision for Future Networks
From Use Cases to Implementation
Hamid R Falaki, Digital Catapult, UK
11.30 - 12.30 Panel - 5G, Business Opportunities
and the WWRF
Chair: Panagiotis Demestichas,
University of Piraeus, Greece
Panelists:
5G Accelerators and Application in e-Agriculture, George Kormentzas, GAIA Epicheirein, Greece.
5G in EC, Bernard Barani, European Commission, Belgium.
Business Applications under 5G, Kostas Danas, Kingston University London, UK.
WWRF on 5G, Angela Alexiou, University
of Piraeus, Greece.
CITIZENS ENGAGEMENT TO THE IOT:
SECURITY AND PRIVACY CHALLENGES
09:00-12:30
ROOM 11
DR. ELIAS TRAGOS
FORTH-ICS, RERUM
PROF. DR. PETER LANGENDÖRFER
IHP, SMARTIE
DR. CHARALAMPOS DOUKAS
CREATE-NET, COMPOSE
Abstract:
The introduction of Internet-Connected Objects has infused immense doses of “intelligence” in our environment. Already a multitude of devices
around us are either connected to the Internet of Things (IoT) or are about to be. In a similar way, the physical objects are obtaining intelligence
through the connected devices that are either attached to them or monitoring/controlling them. At larger scales, buildings and whole cities becoming smarter, embracing a wide range of technologies to enhance and improve the quality of everyday living, contributing at the same time
to the global target of reducing energy consumption.
However, the Internet of Things brings new challenges regarding security, privacy and trust. Having a large number of connected devices installed
in various places of the daily life, e.g. in homes, offices, buses, on the street, monitoring the everyday activities of citizens raises issues regarding
the privacy of the citizens’ personal data. The privacy issues exist not only when users are actively involved in IoT applications e.g. when sending
data from their mobile phones, but also when they are subjects of monitoring by other devices, e.g. when they are being monitored by cameras
on the streets. Devices that offer actuation capabilities, e.g. traffic lights, gates, allow cyber-attacks to extend effects to the real world. Moreover,
Trust in the IoT is also a very important issue that only lately has attracted the research community. Lately, various reports are discussing the lack
of security and privacy in current IoT frameworks, starting from the constrained devices that don’t include encryption mechanisms and going up
to the middleware and the services that don’t consider the secure and privacy preserving storage and exploitation of the user data.
This session aims to bring together experts from three EU projects all members of the Internet of Things Research Cluster (IERC) that are working
in cross-layer issues in the areas of security, privacy and trust in the IoT. The goal is to present the recent results of these projects to the research
community, the industry and standardisation bodies and exchange ideas for joint research activities in the future. Finally, the threats of the IoT
for the citizens will be analysed, discussing also how the results of the projects can help mitigating these threats.
WORKSHOPS
W06
MORNING SESSION
09.00 - 09.10 Welcome and introduction
10.00 - 10.15 The e-balance Security Solution
Elias Tragos, FORTH-ICS, Greece,
Grid Krzysztof Piotrowski,
to the workshop
Charalampos Doukas, CREATE-NET, Greece,
Peter Langendörfer, IHP, Germany
09.10 - 09.25 Security and Privacy in the IoT Location Privacy and Lightweight Security
J.-M. Bohli, Germany,
A. Soijka-Piotrowska, Peter Langendörfer,
IHP, Germany
for the Smart
Wojciech Ciemniewski, Daniel Garrido, Spain,
Juan Jacobo Peralta Escalante
10.15 - 10.30 Evaluating the trustworthiness
of nearby IoT devices
Pavlos Charalampides, Alexandros Fragkiadakis and Elias Tragos, FORTH-ICS, Greece
09.25 - 09.40 A Data-Centric Security Framework
for the IoT
Daniel Schreckling, Germany,
Juan David Parra, Joachim Posegga,
Charalampos Doukas, CREATE-NET, Greece
11.00 - 11.30 Privacy and data protection challenges
09.40 - 10.00 Fostering active citizenship without privacy infringement. the ALMANAC
use case.
in smart city applications
Marit Hansen, Germany
11.30 - 12.30 Panel discussion
Marit Hansen, Claudio Pastrone, Elias Tragos, Charalampos Doukas, J.-M. Bohli
Claudio Pastrone, Italy
33
W07
STATE OF THE ART RESEARCH RESULTS IN GREEN
AND ENERGY EFFICIENT COMMUNICATIONS
FOR THE TELECOMMUNICATION NETWORKS OF TOMORROW
WORKSHOPS
09:00-12:30
GENERAL CHAIRS:
ROOM 8
CO-CHAIRS:
THIERRY KLEIN
BELL LABS, USA
PROF. LARS DITTMANN
DTU-COM, DENMARK
PROF. JAAFAR ELMIRGHANI
UNIVERSITY OF LEEDS, UK
DOMINIQUE CHIARONI
BELL LABS, FRANCE
DR. AZEDDINE GATI
ORANGE LABS, FRANCE
PROF. KEVIN WILLIAMS
TUE, THE NETHERLANDS
Abstract:
The predicted capacity growth in data networks is driven by an accelerated traffic growth from bandwidth hungry applications and services,
an explosion of devices and machines connected to the Internet of Everything and ever more distributed data centers and content distribution
servers. This fundamental trend in communications, computing and storage networks creates a need to investigate new research directions to
reduce the energy consumption of the future fully connected world and make energy efficiency a primary design goal for ICT networks of the
future. The need to reduce the energy consumption of future networks is reinforced by rising energy costs, environmental and political considerations for greater energy autonomy and stability in energy supplies for the next decade.
The first part of the workshop will report on the results of the GreenTouch consortium where the final event will be held in New York in June 2015.
This workshop will cover the major results and technologies from the GreenTouch portfolio and show the potential energy efficiency improvements. The second part of the workshop discusses open challenges and new research directions for further energy efficiency improvements,
with a particular focus on optical and future data centre networks.
This workshop is an opportunity to bring together research experts, scientists and engineers from industry and academia sharing the state of
the art in energy efficiency communication and networking research.
MORNING SESSION
9.00 – 10.30 Overview of Latest GreenTouch Research Results and Technology Portfolio and Future Perspectives
Session Chair: Dr. Thierry Klein, Bell Labs, USA
9h00 - 9h30
GreenTouch: The Road to 1000x
Improvement in Energy Efficiency
Dr. Thierry Klein, Bell Labs, USA
9.30 - 9.45
GreenTouch Energy Efficient Architecture for Optical Access Networks
Dr. Sofie Lambert, IMEC, Belgium
9.45 - 10.00
Virtual Home Gateways for Large Scale Energy Efficiency
Dr. Laurent Lefevre, INRIA, France
10.00 - 10.15 GreenTouch Core Network Energy
Efficiency Improvement Measures
Prof. Jaafar Elmirghani, University of Leeds, UK
10.15 – 10.30 Focusing Antennas for 5G Green Networks in Challenging Scenarios
Dr. Dinh-Thuy Phan-Huy, Orange Labs Research, France
10.30 - 11.00
COFFEE BREAK
11.00 - 12.30
SESSION 2
CHAIR: DOMINIQUE CHIARONI
(BELL LABS, FRANCE)
11.00 - 11.10
Global approach and directions
for a sustainable ICT
Dominique Chiaroni, Bell Labs, France
11.10 - 11.25
Providing and orchestrating flexible DataCenterNetworks (DCNs)
Prof. Lars Dittmann, Head of communication technology section Technical University
of Denmark, DTU, Denmark
11.25 - 11.40 SDN-enabled optical circuit switching for efficient and scalable
datacenter networks
Dr. Nick Parsons, Polatis Ltd, UK
11.40 -11.55
Large-scale InP switches for optical packet switching
Dr. Ripalta Stabile, TUE, The Netherlands
11.55 - 12.10 Green solutions for data centers:
Direct Detection versus Coherent
Prof. Huug de Waardt, Jarek Turkiewicz and Chigo Okonkwo, Tu/e, The Netherlands
12.10 - 12.30 Round table
Session Chairs: Dr. Thierry Klein, Bell Labs USA & Dominique Chiaroni, Bell Labs, France
Panelists: Prof. Lars Dittmann, DTU-FOTONIK Denmark), Prof. Jaafar Elmirghanl, University of Leeds, UK, Dr. Nick Parsons (Polatis Ldt, UK), Dr. Ripalta Stabile, TUE, The Netherlands, Prof. Huug de Waardt, TUE, The Netherlands,
Dominique Chiaron, Bell Labs, France
34
MASSIVE MIMO: FROM FASCINATING THEORY
TO AMAZING PROVEN CONCEPT
14:00-17:30
ROOM 11
OVE EDFORS
ULUND, SWEDEN
LIESBET VAN DER PERRE
IMEC AND KU LEUVEN, BELGIUM
Abstract:
Massive MIMO opens up a new dimension of wireless communications by using an excess of base-station antennas, relative to the number of
active terminals. The technique allows for very efficient spatial multiplexing, attainable using linear processing in a time-division duplex mode.
The concept through the excess of antennas brings about radical improvements in both energy and spectral efficiencies. In recent years, there
has been substantial theoretical progress and the research community, as well as industry, has largely reached consensus that Massive MIMO
will play a major practical role in the near future, influencing several communications standards. However, before we are ready to standardize
and deploy Massive MIMO in practice, many important aspects still have to be addressed. Recently, major progress has been made towards a
real and attractive implementation of Massive MIMO. Remarkably, real-life proof of concept has been realized in the effectively equipped test-bed
(at the university of Lund), confirming the potential exceptional value of this technology for future (5G) networks.
This workshop will bring participants up-to-date on Massive MIMO, from the theory to the actual status of the technology and proof of concept,
brought by leading experts in this specific domain.
WORKSHOPS
W08
AFTERNOON SESSION
14.00 - 14.05 Welcome and introduction to the program
Liesbet Van der Perre, imec and KU Leuven, Belgium
14.05 - 14.40 Keynote: Bringing Massive MIMO to reality
16.00 - 16.30 Complexity assessment: keeping
the Massive MIMO low power promise
Claude Desset, imec, Belgium
Hugo Tullberg, Ericsson, Sweden
16.30 - 17.00 Massive MIMO in Practice:
14.40 - 17.00
SESSION: FROM FASCINATING THEORY TO AMAZING PROOF
OF CONCEPT AND ATTRACTIVE TECHNOLOGY
17.00 - 17.30 Panel session - Massive MIMO:
14.40 - 15.10 Massive MIMO fascinating theory:
fundaments, modulations
and (pre)coding
Mérouane Debbah, Centrale-Supélec, France
15.10 - 15.30 Characterizing the channel:
measurements and models.
From proof-of-concept
to implementation efficiency
Liang Liu, ULund, Sweden
a technology urgently to be standardized.
Panel moderator:
Liesbet Van der Perre (imec), Scientific lead
MAMMOET project
Panelists:
Hugo Tullberg, Ericsson, Sweden,
Mérouane Debbah, Centrale-Supélec, France, Liang Liu (ULund), Sweden,
André Bourdoux, on behalf of the
MAMMOET consortium
35
W09
OPTICAL BACK/FRONT-HAULING TECHNOLOGIES
FOR FUTURE 5G NETWORKS
WORKSHOPS
14:00-17:30
ROOM 8
WORKSHOP ORGANIZER:
DR. GEMMA VALL-LLOSERA
ERICSSON AB, SWEDEN
Abstract:
5G is not just an evolution of 4G as previous generations of wireless communications have been. 5G defines a new world where high capacity
mobile broadband is a reality. In this world, architecture, technology, management have to work together to deliver a networked society in which
every person and every industry is empowered to reach their full potential. Technology wise we are speaking of at least 5 times more backhaul
capacity than networks being deployed with LTE and LTE-advanced. This might force us to look for different back/front-haul solutions because
current ones will not scale up. What are these solutions? The best answer is at guess. In the workshop we will try to give an insight into 5G
and how could we build up future solutions for the new digital era where internet is no longer reserved to the sight but it also reaches the touch.
This proposed workshop is under the COCONUT FP7 project that is developing low cost coherent transceivers to enable a 6.25GHz grid. The
project has now entered the third year with very good marks from the EU office. Specifically the reviewers were impressed by the amount of technical publications (25) in leading conferences and journals. We will hear how photonics can enable radio beamforming, the need for fronthaul
for enabling MIMO and distributed radioheads, for example. Also champions of the optical fonthaul studies in standardization bodies will tell us
about their views regarding optical back/font-haul of 5G networks and evolution from 4G. We do not pretend to solve the 5G paradigm, we just
want to add our grain of sand and perhaps to agree on the further steps to enable a 5G networked society.
AFTERNOON SESSION
14.00 - 14.05 Welcome and introduction
14.05 - 14.30 Optical beamforming:
16.00 - 16.30 Unified network architecture integrating back/front-hauling with fixed access
Stephane Gosselin, Orange Labs, France
Antonio D’Errico, Ericsson, Italy.
16.30 - 17.00 Flexible and cost efficient
enabler for high bandwidth
demanding 5G services
14.30 - 15.00 Trends in optical x-haul for 4G
and 5G mobile networks
Thomas Pfeiffer, Alacatel-Lucent, Germany
15.00 - 15.30 Front Haul networks: Supply and demand
Frank Effenberger, Huawei Technologies, USA.
15:30 - 16:00 COFFEE BREAK
36
optical 5G transport.
Paolo Monti, Kungliga Tekniska Högskolan,
Sweden
17.00 - 17.25 COCONUT Optical coherent solutions
for back/front hauling.
Ernesto Ciaramella, Scuola Superiore Sant’Anna, Italy.
17.25 - 17.30 Conclusion
RADIO ACCESS
AND SPECTRUM CLUSTER WORKSHOP
14:00-17:30
ROOM 10
PAULO MARQUES
AND JONATHAN RODRIGUEZ
INSTITUTO DE TELECOMUNICAÇÕES,
PORTUGAL
DOMINIQUE NOGUET
CEA-LETI, FRANCE
SIMON DELAERE
IMINDS, BELGIUM
MICHAEL GUNDLACH
NOKIA, GERMANY
DIONYSIA TRIANTAFYLLOPOULOU
AND KLAUS MOESSNER
UNIVERSITY OF SURREY, UK
Abstract:
WORKSHOPS
W10
The RAS (www.ict-ras.eu) is a cluster activity comprising a portfolio of 20 research projects participating in the 7th Framework Program and in
the new H2020 research program. RAS projects investigate Radio Access and Spectrum aspects of future wireless networks. In this light, the
main objective of this workshop is exchange and dissemination of EU project’s innovations in the Radio Access and Spectrum area, and fostering
debate on opportunities for collaboration between research projects.
The workshop is structured in two Sessions in order to facilitate exchanges on topics of common interest: ‘‘Innovations on the PHY layer» and
«Innovations on the Network Architecture’’. These two areas combined will contribute to the capacity improvement required by the next generation of wireless networks. Projects updates will be accompanied by a key note speaker invited by the coordination action CRS-i. The workshop
will end with a Panel addressing the role of regulation on wireless innovation and future plans for the RAS cluster.
AFTERNOON SESSION
14.00 - 14.10 Welcome address
Paulo Marques, Instituto de Telecomunicações,
FP7 CRS-i project, Bernard Barani,
European Commission, Belgium
14.10 - 14.30 CRS-i keynote speaker
Trends on wireless technology and radio spectrum management in the US
Jon Peha, Full Professor at Carnegie Mellon
University, former FCC Chief Technologist, USA
14.30 - 15.30 SESSION 1. RAS CLUSTER
INNOVATIONS ON THE PHY LAYER
14.30 - 14.45 SOLDER: Spectrum overlay through aggregation of heterogeneous
dispersed bands
Fotis Foukulas, I.S.I, Greece
14.45 - 15.00 MiWAVES and E3NETWORK:
Millimeter-Wave Small Cell Access
and Backhauling
Laurent Dussop, CEA-LETI, France
Igone Vélez, CEIT, Spain
15.00 - 15.15 MAMMOET: Massive MIMO
for efficient transmission
Liesbet Vander Perre, IMEC, Belgium
16.00 - 17.00 SESSION 2. RAS CLUSTER
INNOVATIONS ON THE NETWORK ARCHITECTURE
16.00 - 16.15 NEWCOM#: Network of Excellence in Wireless Communications
Jossy Sayir, University of Cambridge, UK
16.15 - 16.30 DIWINE: Dense Cooperative Wireless Cloud Network
Stojan Denic, Toshiba Research Europe Ltd, UK
16.30 - 16.45 RESCUE: Links-on-the-fly technology
for robust, efficient and smart communi-
cation in unpredictable environments
Hicham Khalife, Thales, France
16.45 - 17.00 SEMAFOUR: Self-Management
for Unified Heterogeneous Radio
Access Networks
Colin Willcock, NOKIA, Germany
17.00 - 17.30 PANEL
• The role of regulatory policies
on wireless innovation
• Open discussion on how to boost
research projects collaboration
in H2020
15.15 - 15.30 PHYLAWS: Physical layer
wireless security
François Delaveau, Thales,France
37
T01
EMERGING TOPICS IN SMALL CELL NETWORKS:
EVOLUTION TOWARDS 5G SOLUTIONS
TUTORIALS
09:00-12:30
ROOM 6-7
JORDI PEREZ-ROMERO
CTTC, SPAIN
ADRIAN KLIKS
POZNAN UNIVERSITY OF TECHNOLOGY, POLAND
Abstract:
The rapid and continuous traffic growth observed all over the world is for many years one of the main motivators for intensive development of
new wireless transmission solutions that will lead for capacity and coverage improvements as well as reduction of energy consumption. These
aspects are the foundation of the challenging requirements identified for the next generation (5G) networks. One of the promising and widely
investigated solutions is the intelligent deployment of the so-called small-cells as the additional tiers to the regularly mounted base-station
(macrocells). It is worth mentioning that although initially mostly femto and picocells have been considered for deployment in 3G/4G network,
the tight coexistence and cooperation between various types of networks (like WiFi and cellular ones) is treated as technical enabler, often
referred to the small-cell solution.
The importance of this concept has been already indirectly proved by several tutorials offered on significant conferences in the recent years.
Following that direction in this tutorial we would like to concentrate on the specific aspects related to the small-cell networks in the context of
future wireless communications systems. Particularly the problems of efficient backhauling, traffic offloading and application of support tools
for coexistence improvement, such as the Radio Environmental Maps will be discussed.
The tutorial will consist of two main parts: in the first one the introductory illustration of the small-cell networks will be presented, focusing on
the architectural aspects, key problem and challenges related to the practical deployment of the small cells. The role of that part is to overview
and to organize the fundamental information in the field and to highlight the potential of the application of small cells in 5G networks. In the
second part, which constitutes the main contribution of this tutorial, the three selected areas related to small cells deployment will be analyzed
in details. The talk will concentrate on the backhauling issues, where the pros and cons of the possible exiting solutions will be presented. This
will be followed by the detailed discussion on the possible traffic offloading schemes as the example of direct coexistence between cellular and
WiFi networks. Finally, the authors’ vision on the possible deployment of dedicated databases (or rather Radio Environment Maps) for efficient
enabling of coexistence between various network types in the context of small cells will be analyzed.
T02
ENERGY MANAGEMENT FOR 5G NETWORKS:
SELF-SUSTAINABILITY AND ENERGY RECYCLING
14:00-17:30
ROOM 6-7
MARCO MASO
HUAWEI, FRANCE
KAMEL TURKI
HUAWEI, FRANCE
Abstract:
This tutorial covers the recent trends and challenges on Energy Management for 5G networks, with special focus on self-sustainable systems
and energy recycling strategies. The tutorial gives comprehensive coverage of state-of-the-art technologies and their application to the future
generation of wireless networks. The tutorial is organized in 4 parts. Part 1 presents an overview on the energy management in 5G. Part 2
introduces the wireless energy transfer techniques. Part 3 focuses on wireless powered network architectures, designs and protocols. Part 4
illustrates case studies of self-sustainable systems and energy recycling strategies. The content is as follows:
Moving toward Green 5G Networks
• Significance of Energy efficiency in mobile networks
• Energy Harvesting techniques
Wireless Energy transfer (WET): introduction
• Historical and technical introduction to WET
• Circuit design and practical challenges for WET
Wireless powered networks (WPN)
• Paradigms and design of WPN
• Protocols for WPN (MAC, Routing)
Self-sustainable systems and energy recycling strategies
• Self-sustainable transmissions: the case of OFDM
• Energy recycling strategies: case studies
38
CLOSING SESSION
12:30 -13:30
ROOM BERLIOZ
LATEST NEWS FROM NETWORK TECHNOLOGIES:
ICT 14 IMPLEMENTATION AND CLUSTER RESTRUCTURING
THIBAUT KLEINER
EUROPEAN COMMISSION
BELGIUM
STATUS UPDATE ON THE 5G PPP COLLABORATION
AGREEMENT AND FUTURE WORK
CLOSING SESSION
JEAN-SEBASTIEN BEDO
5G PPP
FRANCE
NEXT HORIZON 2020 WORK PROGRAMME
& ICT 2015 EVENT OPPORTUNITIES
BERNARD BARANI
EUROPEAN COMMISSION,
BELGIUM
NEXT STEPS AND CONCLUDING REMARKS
THIBAUT KLEINER
EUROPEAN COMMISSION,
BELGIUM
39
EXHIBITIONS AND DEMOS
STAND 01
BATS: BROADBAND ACCESS VIA INTEGRATED
TERRESTRIAL AND SATELLITE SYSTEMS
STAND 03
SIMON WATTS
& GRAHAM PETERS,
AVANTI COMMUNICATIONS, UK
The motivation of this exhibition is to raise awareness of the research outcomes of the BATS project
looking at the next generation of satellite broadband
communications systems and service delivery models. The exhibition
will focus on the integration of satellite and terrestrial communication
systems.
In addition, Multi-Carrier (MC) techniques are currently in use in terrestrial
systems. OFDM is used in LTE and FBMC is one of the most promising
techniques for 5G systems. Considering them for satellite networks promises several benefits. We will be showcasing the performance of FBMC
and OFDM over an emulated satellite link.
Demo: This demo will include a set of posters and leaflets capturing
some of the key research outcomes of the BATS project (e.g., design of
intelligent routing gateways for integration of satellite/terrestrial networks
and next generation satellite systems). There will be a video about the
BATS concept andproject activities being broadcasted in a monitor. In
addition, we will have a live demo/test-bed. The exhibition demo demonstrates by emulation the feasibility of multi-carrier transmission over
satellite and allows to directly comparing
specific Key Performance Indicators of FBMC and OFDM.
STAND 02
COMMON FEDERATION
FRAMEWORK FOR FIRE
HALID HRASNICA,
EURESCOM,
GERMANY
Fed4FIRE is developing
a common federation
framework for FIRE. This
framework is being widely
adopted by a large number of experimentation
facility providers and different experimenter communities in the area of
Future Internet Research. The framework incorporates state-of-the-art
technologies in the areas of experiment life-cycle management, monitoring and trustworthiness in order to support powerful experiments. The
Fed4FIRE project involves over 20 testbeds, distributed within and outside Europe, and offers experimentation and testing opportunities.
Demo: A live demonstration will show the strengths of the federation of
testbeds and international connectivity in action. We will demonstrate an
experiment using large amounts of interconnected international (EU and
beyond) resources to show what is currently available to experimenters
through Fed4FIRE and associated federations with the same APIs and
toolset. We target about 1000 resources (physical nodes, virtual machines, layer 2 connections, Openflow switches) on various testbeds.
EUROPEAN 5G INITIATIVE
DAVID KENNEDY,
EURESCOM,
GERMANY
NetWorld2020 is the European Technology Platform for communications
networks and services.
The 5G Infrastructure Association represents the
private side of the 5G Public-Private Partnership.
Communications networks enable interaction between users of various
types of equipment, either mobile or fixed; they are the foundation of
the Internet. The NetWorld2020 European Technology Platform gathers
players of the communications networks sector: industry leaders, innovative SMEs, and leading academic institutions.
The concept of holistic 5G networks is so much more comprehensive
than any previous network evolution generation as it will fully integrate
all network technologies mobile, fixed, satellite, optical etc., into a very
dynamic, software enabled, high capacity infrastructure that is capable
of supporting massive increases in availability, reliability and throughput
while dramatically reducing the energy requirements for the provision
of such advanced communications services. The 5G PPP is a set of
coordinated projects which is addressing issues related to 5G networks.
Demo: Poster exhibition: motivation, objectives of NetWorld2020 and
the 5G Infrastructure Association / 5G PPP projects selected for funding.
White paper: 5G: Challenges, Priorities and Recommendations; NetWorld2020 Strategic Research & Innovation Agenda
Videos:
• Key aspects of the 5G EU research activities and the Horizon 2020 programme funding opportunities,
• The European path towards global next generation communication Networks
STAND 04
FELIX: FEDERATED TEST-BEDS FOR LARGESCALE INFRASTRUCTURE EXPERIMENTS
BETWEEN EUROPE AND JAPAN
GINO CARROZO,
NEXTWORKS
S.R.L., ITALY
FELIX is creating a common control framework
where users can request,
monitor and manage a
slice provisioned over distributed and distant Future
Internet experimental facilities in Europe and Japan. FELIX is a joint effort of two independent
consortia (i.e. FELIX-EU in Europe, FELIX-JP in Japan), who are federating
their SDN and NSI research infrastructures to demonstrate the benefits
of a unified and coordinated virtual infrastructure control framework in
some challenging use cases of efficient data transmission and migration of computing services and workloads across facilities in the two
continents.
Demo: The demo will show in a video the FELIX control framework
in action to control SDN and NSI transit network domains when a 4k
video content is streamed from Japan/AIST (media producer) to Europe/
PSNC (media consumer). The demo will show how the FELIX Control
Framework running over multiple FELIX FIRE islands is used to test media
streaming boundary conditions (Experiment 1), examine QoE of high
quality media streaming over EU-Japan test-bed (Experiment 2) and
monitor transmission parameters (Experiment 3).
Besides the FELIX Control Framework components and resources, the
demo includes also the UltraGrid software (Software for low latency and
high-quality video network transmissions”, www.ultragrid.cz), 4k camera and projector (for contents production and visualization on big screen)
and a Control Panel with network topology and measured parameters.
40
CROWD SOLUTIONS FOR SDN‐CONTROLLED SDR NETWORKS WITH D2D
STAND 07
VINCENT MANCUSO,
NETWORKS
INSTITUTE, SPAIN
Mobile data traffic and
network density are
growing exponentially. Several algorithms
have been proposed to
manage such networks
and more will soon
come from the 5G PPP. However, validation of algorithms relies typically
on simulations and rarely the achieved performance is evaluated for the
complete system in a realistic scenario. Especially for LTE-A and newly
proposed D2D technologies, service deployment and testing is practically challenging for the lack of affordable tools and flexible hardware. In
this framework, we propose an SDN-controlled SDR platform to design
and test LTE-A and 802.11 based D2D features with commercial FPGA
tools.
Demo: The demo presents a HW/SW platform for designing network
services based on SDR and D2D. We use a LabVIEW-based PXI platform in which LTE like SISO OFDM PHY and 802.11 PHY are integrated
with an open source protocol stack. Such a platform is controlled by
using services and SDN APIs developed in CROWD to tame dense and
heterogeneous deployment of wireless networks. In particular, the demo
shows PHY/MAC cross layer algorithms for increasing spectral efficiency
by means of SDR-enabled ABSF interference coordination schemes and
D2D mechanisms for channel-opportunistic traffic relay.
STAND 06
PROGRAMMABILITY OF NETWORK FUNCTIONS
WITHIN THE RECURSIVE INTERNETWORK
ACHITECTURE (RINA)
LEONARDO
BERGESIO,
FUNDACIÓ PRIVADA
I2CAT, INTERNET
I INNOVACIÓ
A CATALUNYA, SPAIN
RINA is a promising
architecture build from
first principles and departing from the limitations from the prevalent
TCP/IP protocol suite. RINA is based on a single repeating layer (called
DIF – Distributed IPC Facility) whose functionality can be customized
to the layer’s operating environment. PRISTINE, a FP7 project, has
developed a Software Development Kit for the open source implementation of RINA called IRATI, in order to allow for the customization
of routing, addressing, data transfer, resource allocation and security
policies within a DIF; as well as a number of policy targets for two
use-cases, i.e., data center networking and distributed cloud.
Demo: This demo will show how a software developer can develop
new policies for the RINA implementation, load them in a running
stack and configure the right components of the DIF (layer) with the
new developed policies. It will also show how RINA network works in
practice using developed policies managed via a multi-layer Network
Management System that are designed by PRISTINE. A parallel demonstration will also be present the RINA Simulator as an ideal complement to the IRATI open implementation since it allows performing
rapid provisioning of new policy ideas at scale.
DUPLO FULL-DUPLEX RADIOS
FOR LOCAL ACCESS
KARI RIKKINEN,
UNIVERSITY OF OULU,
FINLAND
Full-duplex is a fundamental game changing
communication scheme
which utilizes the same
frequency resources for simultaneous transmission
and reception. Full-duplex
drastically improves the spectral efficiency, increases the radio link capacity and offers new means for flexible use of spectrum.
The DUPLO project investigates the main full-duplex bottlenecks
and develops new radio transceiver technologies and system level
solutions.
Demo: The hardware setup demonstrates full-duplex wireless communication between two radio nodes. Each radio node implements fullduplex hardware and software solutions developed in the DUPLO project
and illustrates the observed link performance (constellation diagram,
EVM) and self-interference cancellation capability. The demo is both
operational and interactive; the system configuration and surrounding
objects can be changed during operation while monitoring the communication performance and adaptive tuning mechanism.
STAND 08
STAND 05
CREW - COGNITIVE RADIO EXPERIMENTATION
WORLD / WISHFUL - WIRELESS SW AND HW
PLATFORMS FOR RADIO AND NETWORK CONTROL
INGRID MOERMAN,
IMINDS - GHENT
UNIVERSITY,
BELGIUM
The ever-increasing number of wireless standards
has shown that it is impossible to design a single
protocol that performs optimally under all circumstances, especially considering the wide range of deployment scenarios
and unpredictable interference from heterogeneous technologies. To
deal with these issues, it is crucial for wireless devices to become more
flexible and adapt different protocols based on the environment.
In this booth, we will show the capabilities of programmable MAC solutions on off-the-shelf hardware. Using the Wireless MAC Processor
(WMP) for IEEE 802.11 hardware and SnapMAC for IEEE 802.15.4 hardware, we implemented a flexible cross-technology TDMA scheme that
can freely switch between legacy and TDMA operation. This flexibility
allows us to greatly reduce interference when both technologies share a
channel, without compromising the performance of the system.
Demo: WMP and SnapMAC are novel programmable architectures for
WiFi resp. ZigBee wireless devices able to support run-time modifications of medium access operations. Hardware agnostic programs are
loaded on wireless cards and change the MAC behaviour at runtime.
The demo scenario involves the following steps: (1) WiFi detects the
presence of ZigBee packets; (2) a TDMA schema is triggered: instead of
randomly accessing the channel, each transmitter will limit its transmissions to the assigned time slot.
The demonstration itself will run live in the iMinds testlab in Gent and use
a web-interface showing a live RSSI plot as well as a throughput graph
for both technologies (see figures below). Using the controls, it is possible to switch between legacy and TDMA operation as well as modify
several parameters.
41
STAND 09
FP7 / T-NOVA (NETWORK FUNCTIONS
AS-A-SERVICE OVER VIRTUALISED
INFRASTRUCTURES)
TASOS KOURTIS,
& GRAHAM PETERS,
NATIONAL CENTRE
OF SCIENTIFIC
RESEARCH
DEMOKRITOS
(NCSRD), GREECE
The term Network Functions Virtualization (NFV)
defines the process of
virtualizing network functions such as gateways, proxies, firewalls
and transcoders etc., traditionally carried out by specialized hardware devices, and migrating those functions to software-based appliances, deployed onto commodity IT infrastructure. NFV along with
SDN are one of the most promising paradigms for revolutionising the
way in which networks are traditionally managed and controlled.
The NFV concept leverages virtualisation technologies that have
proven their validity in the IT domain, as well as software-driven
network management platforms.
Demo: The T-NOVA demo will showcase:
• Platform-Aware VNF Deployment: Exploiting the VNF requirements
to identify the appropriate platform-specific resources for its
deployment.
• T-NOVA Orchestrator base components: utilizing the Orchestrator GUI to instantiate, deploy, and monitor different NFV services.
• T-NOVA stakeholders interaction with the Marketplace: User
registration, administration, VNF and service composition, SLA
template creation, VNF acquisition and trading.
STAND 10
EUROPEAN COMMISSION
STAND 11
COST
CHRIS IRONS,
COST, BELGIUM
COST is the longest-running European intergovernmental framework
for
cooperation
in
science and technology
supporting trans-national cooperation among
researchers, engineers
and scholars across Europe. As a precursor of advanced multidisciplinary research, COST plays a very important role in building a
European Research Area (ERA).
It anticipates and complements the activities of the EU Framework
Programmes, constituting a “bridge” towards the scientific communities of COST Inclusiveness Target Countries, and also increases the
mobility of researchers across Europe and fosters the establishment
of scientific excellence.
It aims at guaranteeing a fully open and bottom-up approach
through the establishment of a single Scientific Committee and a
renewed evaluation and selection procedure aiming at identifying
breakthrough ideas and favouring interdisciplinary and multidisciplinary projects.
STAND 12
MODULAR WSAN/LOT PLATFORM
WITH PLUG&PLAY MODULE CONNECTION
MARKO MÄKELÄINEN,
CENTRE FOR WIRELESS COMMUNICATIONS,
UNIVERSITY OF OULU, FINLAND
Efficiency and flexibility are among the key requirements for Wireless Sensor and Actuator Networks (WSAN) of Internet of Things
(IoT) era. In the demo we present the novel WSAN and IoT platform.
The nodes are built by stacking together the hardware modules encapsulating various peripherals, e.g., power supply sources, processing units, wireless transceivers, sensors and actuators. Once
a node is assembled, the main processing unit (MPU) automatically detects the attached modules, configures those, detects and
launches possible applications.
Demo: In the demo we will show how one can build a heteroge-
neous WSAN featuring nodes of different structures and employing
various radio communication technologies using the proposed
platform. The WSAN nodes featuring different functionalities will be
assembled from the hardware modules. Once a node is powered,
it will register in the network and start reporting its data using the
available communication mechanisms. The received sensor data
will be displayed using GUI application, which will be used also to
give commands and change operation of particular modules.
42
CONTENT: CONVERGENCE OF WIRELESS OPTICAL NETWORK AND IT RESOURCES
IN SUPPORT OF CLOUD SERVICES
ANNA TZANAKAKI,
UNIVERSITY
OF BRISTOL, UK
Converged network infrastructures are key elements for next generation ubiquitous services.
CONTENT focuses on
heterogeneous wireless
and optical infrastructures, delivered on demand following the IaaS paradigm. The
CONTENT technology platform interconnects geographically distributed computational resources to support a variety of cloud and
mobile cloud services. The CONTENT services include connectivity
of mobile/fixed end-users and IT resources, automatically configured and orchestrated in accordance to the cloud service requirements exploiting SDN technologies.
Demo: The demo shows the two fundamental phases of CONTENT
infrastructure workflows: 1) Integration of wireless and wired optical
network domains through cross-domain technology virtualization,
implemented by the Infrastructure Management Layer (IML). IML
enables the creation of a virtual infrastructure (VI) composed by
WiFi and Time-Shared Optical Network resources, 2) The operation of the previously created VI to provide QoS-guaranteed end-toend connection services, implemented through the VI Control Layer
(VICL) used to establish multi-domain connection services for mobile Cloud.
STAND 14
SELF-MANAGEMENT FOR UNIFIED
HETEROGENEOUS RADIO ACCESS
REMCO LITJENS,
TNO,
THE NETHERLANDS
Manual planning and
optimization of mobile
radio networks as performed today is complex, costly, slow, and
may lead to non-optimal
results in particular for
multi-layer/technology environments. The concepts and solutions
developed in the SEMAFOUR project enable the network operators
to interact with the complex heterogeneous network environment
through a unified self-management system, enabling the automated
and autonomous configuration, control and operation of the network
by means of high-level technical objectives.
Demo: Demonstrated will be SEMAFOUR solutions on: (i) Poli-
cy-Based SON (Self Organising Networks) Management, which allows the classification of radio cells according to the dynamically
varying context, and accordingly configures existing SON functions
in line with operator-formulated technical objectives; (ii) novel SON
functions for e.g. advanced traffic steering among technology (LTE/
Wi-Fi) and cell (macro/micro) layers, dynamic spectrum allocation
and active antenna systems; (iii) a Decision Support System that
anticipates emerging performance/capacity bottlenecks and analyses suitable network upgrades.
STAND 15
QUEEN – QOE FROM THE THEORY
TO APPLICATIONS AND MEASUREMENTS
FRÉDÉRIC GUYARD,
ORANGE, FRANCE
Over the last decade,
the interest in the Quality of Experience (QoE)
seems to have boomed
both in the industry and
in academia. Despite the
growing research activity
around end-user quality
perception, QoE remained until recently an ambiguous concept
lacking a coherent theoretical basis and commonly accepted definitions. The purpose of the QuEEN project was to pave the way
towards a commonly accepted framework for addressing QoE. The
following points were addressed during the project:
• Definition of a clear and unambiguous terminology concerning concepts (services, quality, QoE, etc.)
• Definition of a theoretical and abstract model for QoE (the ARCU model) and of an operational and generic abstraction for
modeling and estimating QoE (the QoE layered model)
•Specification of a software agent implementing the QoE
layered model.
•Investigation of technical and business opportunities related
to QoE evaluation.
STAND 13
Demo: The Quote system (VTT) is a system of benchmarking of
QoE for Telemedicine systems. The evaluation of the QoE for medical
images is based on especially dedicated full-references and realtimes models combined with the QuEEN-agent developed during
the project.
STAND 16
HIPERMED-E3 E-HEALTH EVERYWHERE
AND FOR EVERYBODY
CHABRERA
VILLARREAL,
VILYNX, SPAIN
HIPERMED has developed 8 new products
and improved 9 existing
products relating medical services based on a
common open platform
that offers high-performance low-cost professional telemedicine
services and reuse in-home infrastructure in the Professional to Patient scenarios in order to minimize deployment costs. All relevant
stakeholders such as doctors, patients, hospital administration, medical service operators have been included in the validation process
allowing HIPERMED solutions to be widely adopted and more and
more medical services and hospitals are taking up the HIPERMED
solution mainly in Turkey, France, Poland, Sweden and Spain.
Demo: The HIPERMED-E3 demonstration will show:
1 - A 3D/HD multisite real time remote emergency consultation
videoconference between Paris, Poznan University Hospital and
Nancy University Hospital with a patient non-transferred follow up
during the event.
2 - Video quality estimation of the impact of lossy video compression
on the medical usages.
3 - Knee Rehabilitation.
4 - Video Indexing and Summarizing medical usage.
5 - E3 demo improvements on HIPERMED and new e-health solutions.
43
STAND 17
SYSTEMATIC PARIS-REGION
DIWINE – DENSE COOPERATIVE WIRELESS
CLOUD NETWORK
HRJEHOR MARK &
ALESSIO ZAPPONE,
TECHNISCHE
UNIVERSITÄT
DRESDEN, GERMANY
MARC BOURGAREL,
SYSTEMATIC PARIS-REGION, FRANCE
Through its nine Technology Groups, Systematic
Paris-Region manages a
whole community and
deploys its expertise to
encourage collaborative
innovation. To date, Systematic Paris-Region has facilitated the development of nearly 470 R&D projects, representing an overall R&D
investment of approximately 2.5 billion euros and a total of 850 million euros in subsidies from the French State, development agencies
(ANR, EUREKA, FEDER, bpifrance) and territorial bodies.
Demo: Systematic Paris-Region’s mission is to develop an eco-
system for growth that is conducive to the development of SMEs
into middle-market companies (Entreprises de Taille Intermédiaire
- ETIs). This ecosystem brings together more than 800 SMEs,
accounting for more than 35,000 jobs in the Software, Systems,
Optics and Electronics sectors.
Systematic Paris-Region is also committed to increasing the attractiveness of the region, the Cluster, its area of specialization and its
key players to foreign investors in order to attract skills and companies, encourage and support export initiatives by member SMEs and
ensure that the Cluster and its members play a key role in developments at European level.
STAND 18
KEYSIGHT TECHNOLOGIES EXPEDITE YOUR ROAD TO 5G
HERVÉ OUDIN,
KEYSIGHT
TECHNOLOGIES,
FRANCE
5G Baseband Exploration Library: This innovative design and simulation software solution
supports a collection
of 5G candidate waveforms for orthogonal and non-orthogonal multi-carrier air-interface
designs and includes advanced MIMO and beam-forming signal
processing. The library also provides transmitter and reference receiver modeling examples including source code that can be easily
re-designed to achieve optimal performance for comparison of each
of the candidate standards proposals.
5G mmWave MIMO channel sounding solution:
Channel measurements (sounding) and modeling are critical for 5G
research and subsequent standardization on the air-interface.
Demo: 5G Baseband Exploration Library :
A Flexible Testbed for 5G Waveform Generation & Analysis
• New waveform techniques & Legacy modulation coexistence testing
• MIMO and digital beamforming
• Tackling cross domain design challenge
• Reusing your Matlab models with SystemVue 2015.01 5G Library.
5G mmWave MIMO channel sounding solution : In this demonstration, we mainly focus on how to setup mmWave MIMO channel
sounding system that fulfill the 6 major technical challenges foresee
in 5G as well as focusing on the main channel measurement requirements :
• The use of mmWave frequency band
• The use of ultra-broad bandwidth
• The use of massive MIMO.
We provide our considerations on how to best address these technical challenges based on the last generation of mmWave/microwave
instrumentation, measurement techniques and capabilities.
44
STAND 19
DIWINE considers wireless communication in
a dense relay/node scenario where WNC (Wireless Network Coding)
messages are flooded via
dense massively air-interacting nodes in the self-contained cloud while
the PHY air-interface between the terminals (sources/destinations) and
the cloud is simple and uniform. A complex infrastructure cloud creates
an equivalent air-interface to the terminal, which is as simple as possible.
Source and destination air-interfaces are completely blind to the cloud
network structure. The cloud has its own self-contained organizing and
processing capability.
Demos: TREL#1: This will consist of 6 USRPs in a 2x2x2 configuration
carrying wireless sensor data over a bidirectional link. The received sensor data, sent from light and heat sensors stored in 3D-printed houses,
and a performance comparison with a traditional mesh network will be
demonstrated using a GUI. Further, the feedback data may be used to
control the lighting and heating condition of the houses. The demonstrator
shows the application of Wireless Network Coding to the Smart Meter
Network application scenario, and the throughput enhancement/ delay
reduction achievable such a dense environment.
TREL#2: This will consist of 3+ USRPs showing the capability of the
USRPs to track each other’s Carrier Frequency Offset and Timing Offsets
converging on globally agreed synchronization configuration. The results
will be showed on a GUI.
IQU: A laptop with external display showcasing IQU’s SLS, which visualizes packet forwarding in complex DIWINE topologies.
STAND 20
MIWAVES
LAURENT DUSSOPT,
CEA, FRANCE
The MiWaveS project
plans to demonstrate a
high throughput, bidirectional real time baseband
prototype, capable of processing GBit/s throughput
in real time. This prototyping platform is the core to research beamforming algorithms for
mmWave backhaul and access links required for 5G small deployments.
Furthermore, the project intends to show a mmWave over the air link
integrating components developed by different project partners with the
baseband prototyping platform.
Demo: The booth will present the activities carried out in the project
MiWaveS (www.miwaves.eu) on millimeter-wave technologies for access and backhaul communications in 5G wireless mobile networks.
MiWaveS is currently the largest European project focused on mm-wave
technologies for 5G, an area attracting many interests nowadays in Europe as well as US and Asia.
The project will be in its mid-term (01/2014-12/2016) and we will be
able to present our first demonstrator of a wireless mm-Wave link at
60 GHz with a high-data rate digital baseband. This demonstration and
communication is important at this stage of the project to attract interests
and feedbacks from the community.
THE MPLANE DISTRIBUTED MEASUREMENT
INFRASTRUCTURE AND ITS REFERENCE
IMPLEMENTATION
STAND 23
UNDERWATER IOT
LUIGI PICARI,
UNIVERSITY OF ROME
«LA SAPIENZA» COMPUTER SCIENCE
DEPARTMENT, ITALY
DARIO ROSSI,
TELECOM
PARISTECH, FRANCE
mPlane is a distributed
measurement infrastructure to perform passive, active, and hybrid
network measurements,
continuously or on-demand, at a wide variety
of scales, with built-in support for iterative measurement and automated iteration. By enabling pervasive measurement throughout
the Internet, the mPlane platform benefits everyone: ISPs get a finegrained picture of the network status, empowering effective management and operation. Application providers gain powerful tools for
handling performance issues of their application. Regulators and
end-users can verify adherence to SLAs, even when these involve
many parties. Customers of all kinds can objectively compare
network performance, improving competition in the market.
This demo aims at demonstrating some of the
novel technologies and
solutions developed within the SUNRISE project
to build the future Internet of Underwater Things and to empower
sustainable and remotely-operated development and sustainable
exploitation of the maritime environment, crucial to our future as a
species on this overpopulated planet.SUNRISE is a FP7 ICT FIRE (Future Internet Research and Experimentation) project funded by the
EU Commission that aims at developing five federated underwater
communication networks, based on pilot infrastructure already designed, built and deployed by consortium partners, in diverse environments, web-accessible and interfaced with existing FIRE facilities
to experiment with Future Internet technologies.
Demos: The demo will be composed of three main parts
Demo: During the demo the user will interact through the SUNRISE
• Demonstration of the mPlane architecture and protocol: the goal is to demonstrate the approach defined by the mPlane architecture
that allows a seamless integration of probes, repositories, and
reasoner, orchestrated by a supervisor
• Demonstration of a novel methodology to identify and locate IP Any
cast addresses using active measurements
• Demonstration of a novel content curation approach based on passive
observation of traffic
STAND 22
HIGHTS - HIGH PRECISION POSITIONING
FOR COOPERATIVE-ITS
STEFANO SEVERI,
JACOBS UNIVERSITY
BREMEN, GERMANY
As the highly automated
driving
technologies
are entering the market,
the positioning accuracy provided by GNSS
system is not anymore
sufficient for such applications. In the same time a whole range of new technical solutions
is appearing as capable of providing very accurate navigation information, relying both on on-board sensors (the so called ego positioning) and/or on infrastructure communications (V2X technologies).
The integration of the aforementioned technical solutions with the
traditional GNSS positioning techniques is finally allowing a very
accurate (<25 cm) and reliable localization of road vehicles.
Demo: The demo will consists in a set of different prototypes and
actual sensors offering a proof of concept of some main communication aspects for Cooperative ITS. A first prototype will provide
show how to dynamically ensure communication between mobile
vehicles, while a second one will demonstrate the localization capabilities of the newest V2V standards and its robustness. A series of
video will offer insights on ego positioning technologies and landmark navigation, reproducing the environment as perceived by the
driver of an highly automated car.
STAND 21
Gate web interface with a testbed composed of static and underwater vehicles. The user will remotely instruct each vehicle on the mobility plan to run and will request the collection and visualization
in real time of various measurements using the on board sensors.
Both SUNSET and DUNE will run in simulation mode, simulating the
same exact set-up and user interaction demonstrated during a real
in-field experiments conducted in Porto, Portugal, in July 2014. A
video will be projected showing the in-field operations of the same
instruments and solutions used for the demo.
STAND 24
MIWEBA – TOWARDS MILLIMETER-WAVE 5G
NETWORKS – A BACKHAUL AND
NETWORK PERSPECTIVE
RICHARD WEILER,
FRAUNHOFER HHI,
GERMANY
Future 5G systems are
expected to be densification of base stations with
the usage of heterogeneous network (HetNet)
architecture
including
traditional macro cells
and a number of small cells. In the MiWEBA project such overlay
HetNets are investigated concerning mm-wave backhaul, fronthaul
and mm-wave access. This increased network complexity and the
multiple available RATs necessitate new planning tools. Furthermore,
the deployment of additional small cell base stations also requires
a cost and time effective backhaul technology, where wireless links
come into play.
Demo: The demo consists of a hardware demo of an electronically
steerable mm-wave backhaul link by Intel, a fixed beam mm-wave
backhaul link by Fraunhofer HHI & Panasonic and a software demo
by Orange showcasing a platform that addresses multi-RAT and
mm-wave overlay networks. For the hardware demo, live running
links based on integrated CMOS transceivers and a high gain steerable Lens Phased Array (LPA), as well as a version with fixed beam
with a transmission rate of multiple gigabits per second will be set
up. The software demo shows the Green Multi-Technology Engineering software platform that is an extension of a radio engineering
tool, integrating multiple technology link adaptation metrics. The
platform allows the optimization of base station positions and modes of operation based on several criteria.
45
STAND 25
OVER-THE-AIR DEMONSTRATION FOR REMOTE
RADIO HEAD (RRH) BASED LTE ACCESS WITH THE
USE OF PARASITIC ANTENNA ARRAYS
CONSTANTINOS
PAPADIAS
ATHEN INFORMATION
TECHNOLOGY, GREECE
The HARP project envisions overcoming two
major limitations of current
wireless networks that are:
1 - multiple RF chains in the antenna system (active antennas)
2 - centralization of baseband units (CRAN)
by combining advantageously two recently emerged technology innovations, single RF compact array radiators (antenna arrays with very small
inter-element spacing that are fed with only a single RF chain) and intelligent usage of shared Ethernet packet based networks instead of costly
point-to-point optical links (CPRI).
Demo: The demonstration is made of the following elements:
- A software LTE eNB,
- A fronthauling network based on 10 GbE switches,
- A CPRI to Ethernet gateway,
- A commercial Remote Radio Head,
- An ESPAR antenna,
- A commercial LTE receiver
Control plane: the ESPAR antenna is controlled by the BBU through a
feedback loop from the receiver.
Data plane: the BBU IQ samples transit on the Ethernet network, the
converter, the CPRI link, the RRH and the antenna.
STAND 26
MOBILE CLOUD NETWORKING:
GOING BEYOND NFV
ANDY EDMONDS,
ZURICH UNIVERSITY OF
APPLIED SCIENCES,
SWITZERLAND
MARIUS CORICI,
FRAUNHOFER FOKUS,
GERMANY
This demonstration proposal is presented on behalf
of the EU FP7 Mobile Cloud
Networking consortium. The consortium is a composition of key industrial
and academic partners that are a mix of partners with cloud computing
and/or networking expertise. MobileCloud Networking (MCN) approach
and architecture is demonstrated aiming to show new innovative revenue
streams based on new service offerings and the optimisation of CAPEX/
OPEX. MCN is based on a service-oriented architecture that delivering
end-to-end, composed services using cloud computing and SDN technologies. This architecture is NFV compatible but goes beyond NFV to bring
new improvements. The demonstration includes real implementations of
telco equipment as software and cloud infrastructure, providing a relevant
view on how the new virtualised environment will be implemented.
Demo: This demonstration (NET & APS) aims at showing how a on-de-
46
mand cloudified service can be created. This demo service is standards
compliant (NFV, OCCI, 3GPP). The scenario will be as following where a
tenant requests the instantiation of a composed end-to-end service (RAN,
EPC, IMS, DNS, Monitoring & Billing) instance via the dashboard of MCN.
During the demo it will be possible to easily change the composition of
the service to be created. At the end of the provisioning procedures, the
management endpoints will be communicated to the tenant. For example, the tenant will have the possibility to access the Web frontend of the
Home Subscriber Server (HSS) and provision new subscribers. The clients
attached to the network will establish a call making use of the IP Multimedia Subsystem provided by the MVNO. Monitoring as a Service tool provided by the platform will check the current situation of the services. Scaling
and a means to benchmark the services will also be demonstrated. At the
end of the demonstration it will be possible to billing and disposal of the
service and it’s related services.
STAND 27
ECOUSIN: ENHANCED CONTENT
DISTRIBUTION WITH SOCIAL
YANNICK LE LOUÉDEC
& PATRICK TRUONG,
ORANGE, FRANCE
Content Distribution Services are booming and
they will be responsible
for the majority of future
Internet traffic. In parallel,
Online Social Networks
(OSNs) have become
today’s most popular Internet application. The widespread adoption
of OSNs has drastically changed the way content is consumed in the
Internet, as content consumption is nowadays highly impacted by the
information shared by users through OSNs and the popularity of a given
content is most often dictated by its “social” success.
With such a “social-content revolution”, operators need to evolve and
optimize their network to avoid being overwhelmed by the ever growing
traffic volumes resulting from this paradigm change. To this aim, the
goal of eCOUSIN is to design a novel social-aware network architecture
with built-in content dissemination functionalities that exploits the social-content interdependencies to improve its efficiency.
Demo: The demo is composed of 4 use cases:
1 - Content Placement: optimizing content caching by leveraging social information,
2 - Personal Sharing Clouds: easily sharing media content with friends
whatever their social networks and with a high degree of data ownership,
3 - Information-Centric Networking: bridging the gap between informa
tion-centric usage of the Internet and its communication architecture,
4 - Content Offloading for Mobile Networks: improving resource usage
and quality of experience by means of prediction-based resource
optimization and content prefetching leveraging social information.
STAND 28
SON FOR MOBILE BACKHAUL
ZOLTÁN VINCZE,
NOKIA, HUNGARY
The
Proof-of-Concept
(PoC) system used in the
demonstration is composed of real devices
including Nokia’s SON
technology, LTE base stations and SAE-GW and
Coriant’s 8600 Smart
Routers and SDN controller. Using the PoC it will be showcased how
SON for Mobile Backhaul can detect QoE degradation and anomalies
in real-time, how it can localize the problem and perform automatic
reconfiguration of the end-to-end services to maintain right QoE level.
NATIONAL INSTRUMENTS
LEIF JOHANSSON,
NATIONAL
INSTRUMENTS,
FRANCE
National Instruments is
collaborating with several
top researchers focused
on wireless research specifically 5G wireless
communications. The graphical system design approach combines NI LabVIEW system design
software with software defined radio (SDR) hardware to give researchers
the ability to innovate faster. Using this approach engineers can significantly reduce the time from theory to results by testing their designs in a
real-world environment.
Demos: 5G prototyping tools for SDR, with examples for Massive
MIMO, mm Wave, Dense Networks and PHY Enhancements
STAND 30
LOW EMF EXPOSURE FUTURE NETWORKS
NADÈGE VARSIER,
ORANGE LABS,
LEXNET elaborated a
new metric to assess
the EMF population
exposure due to wireless
communication
networks, taking both
downlink and uplink
components into account, and considering effective network and user activity. Thus LEXNET offers an efficient way for manufacturers, operators or regulators
to measure real exposure and find strategies to reduce it. LEXNET has
designed and is currently experimenting several methodologies to capture the proposed EMF exposure metric, which are mandatory to make
the new metric a reality, accepted by stakeholders, and standardized.
LEXNET also aims at identifying, evaluating and promoting low-EMF
technologies, typically components (e.g. low-noise receiver, highly directive antennas), topologies (e.g. small-cells) and network management
techniques (e.g. EMF-aware resource management).
Demo: presentation of LEXNET new EMF metric; proposed assessment
methodologies; set of promising technologies evaluated through simulation. New exposure measurement methodologies will be demonstrated
by: - Web access to live measurements from the smartcity Santander
platform (with dosimeters installed in downtown). - Demonstration of
EMF measurements by a low-cost dosimeter (possibly completed with
a repeater as used in the smart city network - Prototype of an advanced
dosimeter to be used for drive-test or body-worn measurements. - Movie
on drive-test measurements conducted in Santander. Besides the hardware prototype of a small steerable directive
STAND 31
EUWIN EXPERIMENTATION
RAYMOND KNOPP,
EURECOM, FRANCE
The exhibition is organized and supported by
the European Laboratory
of Wireless Communications for the Future Internet
(EuWin) funded by the EC
through the Network of Excellence in wireless communications Newcom#. The EuWin facilities are distributed over three
sites: at CTTC in Barcelona (Spain), at the University of Bologna (Italy)
and at the Eurecom institute in Sophia-Antipolis (France). They are open
for access by any scientist worldwide. EuWin is an integrated laboratory
able to address, under a common environment, the various topics of wireless communication technologies for the future Internet. The laboratory
activities aim at creating a new generation of researchers in wireless
communications believing in the motto «Fundamental Research Through
Experimentation». EuWin addresses topics and techniques related to the
systems and networks that will drive the evolution of wireless communications in the years to come: LTE/4G, the Internet of Things, GNSS.
Digital signal processing, radio access and network protocol aspects,
are studied through the available lab facilities.
STAND 29
Demo: The Bologna IoT demo will access a site in Bologna remotely
and demonstrate how sensor network experiments can be controlled
from a remote location. EURECOM demo is centered around recent advances in the OpenAirInterface.org (OAI) platform. We will show an example of the use of OpenAir4G as a fully compliant 4G basestation using
commercial terminals. We will also demonstrate how the OAI platform
can be used to create so-called Cloud-RAN centralized processing for
virtualizing basestations in a server platform.
STAND 32
ABSOLUTE (AERIAL BASE STATIONS
WITH OPPORTUNISTIC LINKS FOR UNEXPECTED
&TEMPORARY EVENTS)
ISABELLE BUCAILLE,
THALES COMMUNICATION & SECURITY,
FRANCE
ABSOLUTE is a highly
ambitious and unique
European effort investigating and validating a novel
heterogeneous network
architecture
combining
aerial (tethered balloon), terrestrial and satellite communications links.
It provides rapidly deployable, resilient and flexible mobile network, comprising innovative components, advanced functionalities for broadband
applications during large scale emergency recovery or temporary events.
ABSOLUTE project will finish at the end of September 2015. All sub-systems have been developed and the EUCNC booth would be a good opportunity to present each of them and to provide some insights of the
system capabilities.
Demos: Four main demonstrations are foreseen:
• The first one will illustrate the Portable Land Mobile Unit sub-system.
It will be composed of a suitcase having 3G Base station, WiFi access
point, Wireless Sensor Network, computing platform etc... Dedicated
mobile phones and tablets showing applications developed in the
scope of the project will be connected to the PLMU.
• The second demonstration will be the LTE platform developed in AB SOLUTE with Radio Remote head and Baseband components.
• The third demonstration area will present the Multi-Mode User Equip ment developed in ABSOLUTE.
• The fourth demonstration will be a video of trails that have been
performed with the aerial platform.
47
STAND 33
SMARTFIRE: TESTBED INNOVATIONS
FOR EXPERIMENTING WITH WIRED AND
WIRELESS SOFTWARE DEFINED NETWORKS
STAND 35
DONATOS
STAVROPOULOS,
UNIVERSITY
OF THESSALY, GREECE
HARRIS NIAVIS,
UNIVERSITY
OF THESSALY,
GREECE
SmartFIRE project aims
in offering a large scale
wireless and wired software defined networking
experimental infrastructure for the evaluation of novel protocols and ideas on state-of-the-art
networking technologies. The project is extending existing testbeds with
wireless and SDN support, boosting the collaboration between two mature consortia, one from Europe and one from S. Korea, and creating a
federated facility that joints the resources of the existing testbeds. The
testbeds that are available within SmartFIRE are publicly available 24/7,
remotely accessible and provided free-of-charge.
Demos: Our demonstration will consist of two parts;
1 - Demonstrating the tools that are available through SmartFIRE to any
experimenter that accesses our testbeds, for efficiently controlling
and configuring the SDN and wireless network components and
2 - Showcasing the capabilities of our individual and federated testbeds,
by implementing and demonstrating novel use cases that involve
mobility and content based communications.
STAND 34
FOCUSING ANTENNAS AND GLOBAL
OPERATING SYSTEM
MARION DUPREZ,
ORANGE, FRANCE
These two technologies illustrate two very important
requirements operators
have for 5G: a better energy efficiency and more
flexibility in network services without increasing
the daily management complexity.
Demo: 2 demos will be presented :
• One based on time reversal to increase the radio air interface efficiency.
It will demonstrate a very high throughput with limited energy consumption
thanks to a very directed beam towards a mobile focal point.
• One based on Open Daylight and OpenStack and a network services
orchestration framework. It will demonstrate the flexibility in terms of
resources which can be achieved with these technologies on some
home networking use cases.
FLEX: OPEN EXPERIMENTAL
INFRASTRUCTURE ON LTE AND BEYOND
FLEX project aims in offering a large scale cellular
networking experimental
infrastructure for the evaluation of novel protocols
and ideas on state-of-theart networking technologies. The project is extending existing testbeds
with LTE support and is offering two setups; 1) a commercial equipment based testbed, for the development of novel services and 2) an
open-source setup for the development and evaluation of new protocols,
leveraging the LTE protocol stack. The testbeds that are available within
FLEX are publicly available 24/7, remotely accessible and provided freeof-charge.
Demos: Our demonstration will consist of two parts;
1 - Demonstrating the tools that are available through FLEX to any expe rimenter that accesses our testbeds, for efficiently controlling and
configuring the LTE network components (e.g. LTE base stations,
Evolved Packet Core networks)
2 - Showcasing our open source LTE testbed and its capabilities towards
enabling the experimental evaluation of potential 5G technologies.
STAND 36
STRAUSS: SCALABLE AND EFFICIENT ORCHESTRATION OF ETHERNET SERVICES USING SOFTWAREDEFINED AND FLEXIBLE OPTICAL NETWORKS
RICARD VILALTA,
CTTC, SPAIN
Transport networks include
different optical technologies (e.g., flexi-grid, OPS)
and heterogeneous control
technologies (e.g., OpenFlow -OF-, GMPLS/PCE),
which enable flexible and
dynamic networking but
also create a multi-domain multi-technology network scenario in order to
support end-to-end service provisioning. Such a transport network scenario raises challenges for efficient network control and operations. An
SDN-enabled virtualization platform that allows abstracting and controlling a multi-domain multi-technology transport network is able to support
rapid deployment of applications and network services and improve overall network operations. The creation and operation of multi-tenant virtual
networks also allows better network utilization.
Demo: In this demo, we present the Virtual Network Controller (VNC)
and the Multi-domain SDN Orchestrator. The VNC allows the deployment
of OF-enabled multi-tenant Virtual Networks (VN). Once a requested VN
is deployed, it is controlled with a customer SDN controller. The Multi-domain SDN Orchestrator is responsible for the provisioning of end-to-end
paths across multi-technology network domains. The VNC interacts with
the Multi-domain SDN Orchestrator to provision the requested virtual
links.
48
49
NOTES
SOCIAL PROGRAM
18:00 -19:30
WELCOME RECEPTION
Location: Issy les Moulineaux Congress Center in the exhibition areas
• Hall Menand, level 0
• Hall Debussy, level 1
Meet your colleagues and socialize with your friends during the “Welcome Reception” in the exhibition areas.
Access is free to all registered participants.
GALA DINNER
20:00 - 23:00
BATEAUX-MOUCHES® CRUISE IN PARIS
To know a city’s soul, you have to touch its heart: the river Seine. The «Bateaux-Mouches» recounts this love story to generations of
curious passengers, poets, romantics, lovers...
Paris gives away its banks and its light golden stones in the way of a diva never tired of glances and applauses.
Let yourselves be carried by the scenery and the rhythm of the water, taste authentic flavors imagined by the Chef of the Bateaux-Mouches®, cooked onboard by ‘‘les maîtres-coq’’.
Precious hours of pleasure with two thousand years of history to witness.
Paris is a party, come celebrate it during the EUCNC 2015 Gala Dinner! Board on the JEAN BRUEL, a Bateaux-Mouches Company Boat
and live the experience of a private cruise on the Seine, the ultimate experience to discover Paris.
The Gala Dinner is included in the Full Registration.
It is not included in the Student, Workshops and One day Registrations.
MEETING POINT AT 20:00
BATEAUX-MOUCHES® PONT DE L’ALMA PARIS
Boarding and landing take place at the Port de la Conférence, Quai n°4 - Pont de l’Alma, on the Rive Droite, in the 8th arrondissement of Paris.
Access: Metro station: Alma Marceau Line 9 / RER station : Pont de l’Alma Line C
20:00 Welcome and boarding
20:30 Cruise departure
20:30 Dinner on board
22:45 End of the Cruise
Important: the gala dinner invitation will be requested to board the boat.
50
GENERAL INFORMATION
29 JUNE 2 JULY 2015 PARIS
Thank you for registering to attend the 24th
European Conference on Networks and
Communications.
The following information is designed to help
you find your way around EUCNC 2015 and
to add to your enjoyment of the conference.
delegates will not be issued a ticket.
If you have purchased additional tickets for
the welcome reception, for guest person, you
must collect the extra ticket(s) from the Registration Desk in the Conference Registration
Hall.
Please read this information carefully.
CLOAKROOM / LUGGAGES
EUCNC CONFERENCE VENUE
There are cloakroom facilities inside the Palais
des Congrès of Issy Les Moulineaux
To facilitate your arrival and departure directly from the venue, a Lugage Storage area is
available inside the venue in to the Conference
Registration Hall, exclusively for the use of registered participants of EUCNC 2015.
We recommend you to withdrawn your badge first before dropping your luggage. Your
badge will be requested when dropping the
luggages.
Drop of luggages without a badge will be refused without any possibility of claim.
Computers, devices or valuables objects
won’t be accepted.
The Organisers cannot be held responsible for
damage to or loss of their personal property
howsoever caused.
Palais des Congrès de Issy-Les-Moulineaux
25 avenue Victor Cresson
92130 Issy-les-Moulineaux - France
The Palais des Congrès is located in the centre
of Issy les Moulineaux, next to the metro station “Mairie d’Issy. All local amenities may be
reached by foot.
TAXI
Alpha Taxis + 33(0)1 45 85 85 85
Taxi G7 + 33(0)1 47 39 47 39
A taxi station is located at the metro station
“Mairie d’Issy”, at 5 minutes walking distance
from the Congress Center.
https://www.facebook.com/eucnc
CURRENCY & ATM MACHINE
The currency in France is Euros €.
The venue does not have an ATM Machine.
The nearest one is located in front of the
Congress Center at “La poste”.
EUCNC 2015 EXHIBITION
The exhibition will take place in two different
areas: Hall Menand Level 0 and Hall Debussy,
level 1
Exhibition Opening hours:
Tuesday Wednesday Thursday 09.00 - 19.30
09.00 - 17.30
09.00 - 14.00
AUTHOR INFORMATION - IMPORTANT
SPEAKER INFORMATION
Registration Desk will collect the Lost-and
Found.
Cloakroom Opening hours:
Monday
Tuesday Wednesday
Thursday INSURANCE
LUNCH AND COFFEE BREAKS
The Organisers cannot be held responsible for
accidents to participants or for damage to or
loss of their personal property howsoever
caused.
Standing Buffet Lunchs and Coffee breaks are
included in conference registration fees. They
will be held in the following exhibition areas:
Hall Menand, level 0 and Hall Debussy, level 1
• Authors are asked to download directly
their presentation with a usk key on the
computer of their conference room
• Speakers must upload their presentation
to the laptop computer in the session
room 15 minutes before the session
starts. We recommend that you bring
both a PowerPoint and PDF file of your
presentation to ensure that there are no
problems. Speakers are requested to test
the functionality of the presentation be
fore the beginning of the session.
• Speakers are not allowed to bring their
own laptop computer, avoiding useless
time breaks in between papers.
ONSITE REGISTRATION
EUCNC 2015 WEBSITE
POSTERS
The EUCNC 2015 website will be updated during
the conference with a videoblog containing small
interviews to key people attending the conference
and with a photo gallery of the event.
A webcasting service of the plenary sessions
will also be available.
There will be 2 posters sessions:
Tuesday 29 June
14.00 - 14.30pm
Wednesday 30 June
14.00 - 14.30pm
Each posters session will take place in Hall
Debussy, level 1.
• For the posters session, posters should
be set up during the morning coffee breaks
of the day you are presenting your poster.
• Posters should be set up on the poster
board using only dual-face sticking tape
or similar tool supplied by the local or ganization. Staples, pins, screws or any
abrasive or perforating hardware are not
permitted. Do not write or paint on the
poster boards.
• Posters should be removed from the
boards by the end of the day of your pre sentation.
NO SMOKING POLICY
To comply with French law smoking is prohibited inside.
LOST-AND-FOUND
Conference Registration Desk Opening Times:
Monday - Wednesday 08.00 - 18.00
Thursday 08.00 - 12.00
The Conference Registration Desk is located
on the level 0 of the Congress Center.
Name badges
Delegate badges must be worn at all times
to gain access to the conference sessions,
exhibition and social events. Upon your arrival, you must withdraw your badge in the
Conference Registration Hall before entering
the conference rooms area.
Gala Dinner Registration
Conference delegates who have registered
and paid for the conference dinner will be given a ticket Please bring your ticket with you
and show it to the hostesses before boarding.
If you have purchased additional gala dinner
tickets for Guest person(s), you must collect
the extra ticket(s) from the Registration Desk
in the Conference Registration Hall
Welcome Reception
Attendance to the welcome reception is included in your registration fee - conference
08.00 - 18.00
08.00 - 19.30
08.00 - 18.00
08.00 - 14.00
WI-FI
There will be free WIFI access available in the
conference venue.
Network and login will appeared on the back
of your badge
WIFI NETWORK : WIFI LOGIN: WIFI PASSWORD: *EUCNC2015_WIFI
EUCNC2015
CONFERENCE
SOCIAL MEDIA
There will be several updates along the day
with the major highlights of the conference.
https://www.linkedin.com/grp/home?gid=7457059
https://twitter.com/eucnc
TOURISTIC VISIT DESK
Opening hours:
Monday - Tuesday:
9.00 - 17.00
SEE YOU IN EUCNC 2015!
51
PLATINUM PATRON
The European Commission is the Platinum
Patron of the conference.
http://www.ec.europa.eu
GOLD PATRONS
Orange is one of the world’s leading telecommunications operators with
sales of 41 billion euros
in 2013 and 159,000
employees worldwide
at 30 September 2014,
including 99,800 emhttp://www.orange.fr
ployees in France. Present in 30 countries, the
Group has a total customer base of 240 million customers worldwide
at 30 September 2014, including 182 million mobile customers and
16 million fixed broadband customers. Orange is also a leading provider of global IT and telecommunication services to multinational
companies, under the brand Orange Business Services.
With its industrial project, ‘‘conquests 2015’’, Orange is simultaneously addressing its employees, customers and shareholders,
as well as the society in which the company operates, through a
concrete set of action plans. These commitments are expressed
through a new vision of human resources for employees; through
the deployment of a network infrastructure upon which the Group
will build its future growth; through the Group’s ambition to offer a
superior customer experience thanks in particular to improved quality
of service; and through the acceleration of international development.
Nokia invests in technologies important in a
world where billions of
devices are connected.
We are focused on three
businesses : network
infrastructure software,
hardware and services,
http://www.company.nokia.com
which we offer through
Nokia Networks; location intelligence, which we provide through HERE; and advanced
technology development and licensing, which we pursue through
Nokia Technologies. Each of these businesses is a leader in its respective field.
52
On Sept. 19, 2013, Agilent
Technologies announced
plans to separate into two
publicly traded companies through a tax-free
spinoff of its electronic
measurement business.
The new company, Keyhttp://www.keysight.com
sight Technologies, began operating as a wholly
owned subsidiary of Agilent on Aug. 1, 2014 with a full separation
anticipated in early November 2014. Keysight is expected to trade on
the NYSE under the symbol KEYS.
Keysight is a global electronic measurement technology and market
leader helping to transform its customers’ measurement experience
through innovation in wireless, modular, and software solutions.
Keysight provides electronic measurement instruments and systems
and related software, software design tools and services used in the
design, development, manufacture, installation.
For nearly 40 years, NI
has worked with engineers and scientists to
provide answers to the
most challenging questions. Through these
pursuits, NI customers
have brought hundreds
http://www.ni.com
of thousands of products
to market, overcome innumerable technological roadblocks, and engineered a better life for
us all. If you can turn it on, connect it, drive it, or launch it, chances
are NI technology helped make it happen.
SILVER PATRONS
Alcatel-Lucent is the
leading IP networking,
ultra-broadband access
and cloud technology
specialist. We are dedicated to making global
communications more innovative, sustainable and
http://www.alcatel-lucent.com
accessible for people,
businesses and governments worldwide. The mission of Alcatel-Lucent is to invent and
deliver trusted networks to help our customers unleash their value.
We conceive and invent the future through open collaboration with
customers, stakeholders, and our Bell Labs researchers, pushing the
limits of communications and shaping the digital world. We combine
the world’s best network of minds with a start-up culture to solve
today’s major challenges and develop tomorrow’s breakthrough
technologies and business models. Every success has its network.
About CEA-Leti. Leti is an
institute of CEA, a French
research-and-technology
organization with activities in energy, IT, healthcare, defence and security. Leti is focused on
creating value and innohttp://www.leti.fr
vation through technology transfer to its industrial
partners. It specializes in nanotechnologies and their applications,
from wireless devices and systems, to biology, healthcare and photonics. NEMS and MEMS are at the core of its activities. An anchor
of the MINATEC campus, CEA-Leti operates 8,000-m² of state-ofthe-art clean room space on 200mm and 300mm wafer platforms.
It employs 1,700 scientists and engineers including 320 Ph.D. students and 200 assignees from partner companies. CEA-Leti owns
more than 2,200 patent families.
Ericsson AB is a company in the Ericsson
Group (Ericsson). Ericsson is the world’s leading
provider of communications technology and
services. We are enabling
the Networked Society
http://www.ericsson.com
with efficient real-time
solutions that allow us all
to study, work and live our lives more freely, in sustainable societies
around the world. Our offering comprises services, software and infrastructure within Information and Communications Technology for
telecom operators and other industries. Today more than 40 percent
of the world’s mobile traffic goes through Ericsson networks and we
support customers’ networks servicing more than 2.5 billion subscribers. We operate in 180 countries and employ more than 115,000
people. Founded in 1876, Ericsson is headquartered in Stockholm,
Sweden. In 2013 the company’s net sales were SEK 228.0 billion.
Ericsson is listed on NASDAQ OMX, Stockholm and NASDAQ, New
York stock exchanges.
Huawei is a leading global information and communications technology
(ICT) solutions provider.
Our aim is to build a
better connected world,
acting as a responsible
corporate citizen, innovahttp://www.huawei.eu
tive enabler for the information society, and collaborative contributor to the industry. Huawei’s 170 000 employees
worldwide are committed to creating maximum value for telecom
operators, enterprises and consumers. Our innovative ICT solutions,
products and services are used in more than 170 countries and regions, serving over one-third of the world’s population.
Huawei currently has over 9 900 staff based in Europe, of whom
1200 are working in R&D. We run 18 R&D sites located in eight European countries (Belgium, Finland, France, Germany, Ireland, Italy,
Sweden and the UK) and operate numerous joint innovation centres
in partnership with telecom and ICT partners.
Connect with us on Twitter, Facebook, YouTube and LinkedIn.
SPONSORS
Technically Co-Sponsored
by the IEEE Communications Society
®
http://www.ieee.org
53
EXHIBITION MAPS
HALL MENAND - LEVEL 0
HALL DEBUSSY
MENAND -- LEVEL
LEVEL 01
54
FELIX: FEDERATED TEST-BEDS FOR LARGE-
PROGRAMMABILITY OF NETWORK FUNCTIONSWITHIN
CREW - COGNITIVE RADIO EXPERIMENTATION WORLD / WISHFUL -
FP7 / T-NOVA (NETWORK FUNCTIONS AS-A-SERVICE
CONTENT: CONVERGENCE OF WIRELESS OPTICAL NETWORK
THE MPLANE DISTRIBUTED MEASUREMENT
MIWEBA – TOWARDS MILLIMETER-WAVE 5G NETWORKS –
OVER-THE-AIR DEMONSTRATION FOR RRH-BASED LTE
ABSOLUTE (AERIAL BASE STATIONS WITH
SMARTFIRE : TESTBED INNOVATIONS FOR EXPERIMENTING
STRAUSS: SCALABLE AND EFFICIENT ORCHESTRATION OF ETHERNET
04................................................................... SCALE INFRASTRUCTURE EXPERIMENTS BETWEEN EUROPE AND JAPAN
05.................................................................... CROWD SOLUTIONS FOR SDN‐CONTROLLED SDR NETWORKS WITH D2D
06.................................................................................................. THE RECURSIVE INTERNETWORK ACHITECTURE (RINA)
07......................................................................................................... DUPLO FULL-DUPLEX RADIOS FOR LOCAL ACCESS
08..................................................................WIRELESS SW AND HW PLATFORMS FOR RADIO AND NETWORK CONTROL
LIST OF EXHIBITORS
01............................................ BATS: BROADBAND ACCESS VIA INTEGRATED TERRESTRIAL AND SATELLITE SYSTEMS
02................................................................................................................COMMON FEDERATION FRAMEWORK FOR FIRE
03................................................................................................................................................... EUROPEAN 5G INITIATIVE
09........................................................................................................................... OVER VIRTUALISED INFRASTRUCTURES)
10.....................................................................................................................................................EUROPEAN COMMISSION
11....................................................................................................................................................................................... COST
12............................................................... MODULAR WSAN/LOT PLATFORM WITH PLUG&PLAY MODULE CONNECTION
13................................................................................................... AND IT RESOURCES IN SUPPORT OF CLOUD SERVICES
14..................................................... SELF-MANAGEMENT FOR UNIFIED HETEROGENEOUS RADIO ACCESS NETWORKS
15............................................................... QUEEN – QOE FROM THE THEORY TO APPLICATIONS AND MEASUREMENTS.
16...................................................................................... HIPERMED-E3 E-HEALTH EVERYWHERE AND FOR EVERYBODY
17.................................................................................................................................................SYSTEMATIC PARIS-REGION
18...............................................................................................KEYSIGHT TECHNOLOGIES - EXPEDITE YOUR ROAD TO 5G
19........................................................................................ DIWINE – DENSE COOPERATIVE WIRELESS CLOUD NETWORK
20................................................................................................................................................................................ MIWAVES
21...........................................................................................INFRASTRUCTURE AND ITS REFERENCE IMPLEMENTATION
22................................................................................... HIGHTS - HIGH PRECISION POSITIONING FOR COOPERATIVE-ITS
23................................................................................................................................................................. UNDERWATER IOT
24......................................................................................................................A BACKHAUL AND NETWORK PERSPECTIVE
25............................................................................................... ACCESS WITH THE USE OF PARASITIC ANTENNA ARRAYS
26........................................................................................................MOBILE CLOUD NETWORKING: GOING BEYOND NFV
27..............................................................ECOUSIN: ENHANCED CONTENT DISTRIBUTION WITH SOCIAL INFORMATION
28..............................................................................................................................................SON FOR MOBILE BACKHAUL
29.................................................................................................................................................... NATIONAL INSTRUMENTS
30........................................................................................................................ LOW EMF EXPOSURE FUTURE NETWORKS
31.................................................................................................................................................. EUWIN EXPERIMENTATION
32...............................................................................OPPORTUNISTIC LINKS FOR UNEXPECTED &TEMPORARY EVENTS)
33.....................................................................................WITH WIRED AND WIRELESS SOFTWARE DEFINED NETWORKS
34.............................................................................................. FOCUSING ANTENNAS AND GLOBAL OPERATING SYSTEM
35......................................................................... FLEX: OPEN EXPERIMENTAL INFRASTRUCTURE ON LTE AND BEYOND
36.....................................................................................SERVICES USING SOFTWARE-DEFINED AND FLEXIBLE OPTICAL NETWORKS
55
56
NOTES
EUNC 2015 OVERVIEW MONDAY, 29 JUNE 2015
ROOM 4
W03
09.00
10.30
Next Generation
Public Safety
and Critical
Infrastructures
ROOM 5
ROOM 6 - 7
T01
W01
Emerging Topics
in Small-Cell
5G Solutions
Joint CLEEN
and ACROSS
Workshop on
Efficiency in
10.30
11.00
Next Generation
Public Safety
and Critical
Infrastructures
T01
W01
Emerging Topics
in Small-Cell
5G Solutions
Joint CLEEN
and ACROSS
Workshop on
Efficiency in
12.30
14.00
14.00
15.30
W07
State-of-the-
W01
W03
Next Generation Joint CLEEN
Public Safety
and Critical
Infrastructures
Art Research
Results in Green
Tomorrow
W07
State-of-the-
and ACROSS
Workshop on
Cloud Technology
Communications
Next Generation
Public Safety
and Critical
Infrastructures
W01
Joint CLEEN
and ACROSS
Workshop on
Cloud Technology
Communications
ROOM BERLIOZ
KEY DATES
5 Feb. 2016
Paper submission deadline
8 Apr. 2016
Notification of acceptance
Citizens
Engagement
to the IoT:
Security
and Privacy
Challenges
W02
Workshop
on 5G Testbeds
Research.
W05
Workshop
on Network
Function
Virtualization
and
Programmable
Networks
WWRF
Workshop A Business
and Enterprise
Perspective on
the Upcoming
5G Era
W06
Citizens
Engagement
to the IoT:
Security
and Privacy
Challenges
W02
Workshop
on 5G Testbeds
Research.
T02
Energy Ma-
nagement for
5G Networks:
Recycling
W09
Workshop on
Optical Back/
Front-Hauling
Technologies
for Future 5G
Network
W04
Workshop
on Network
Programmable
Networks
W10
Radio Access
W08
Massive MIMO
W02
Workshop on
W10
W08
W02
Workshop
Amazing Proven
Concept
5G Testbeds
and Hands-On
Experimental
Research.
T02
Energy Management for
5G Networks:
Recycling
W09
Workshop on
Optical Back/
Front-Hauling
Technologies
for Future 5G
Network
MOLIÈRE
ROOM 5
W04
Workshop
on Network
Programmable
Networks
Radio Access
Workshop
Massive MIMO
Amazing Proven
Concept
Workshop on
5G Testbeds
and Hands-On
Experimental
Research.
ROOM 6-7
ROOM 9
ROOM 10-11
ROOM 12
EXHIBITIONS DEMOS
SPS02
European
Platforms and
Facilities for
Experimentation
towards 5G
SPS01
Reducing Internet
Latency
Final paper submission
18:00
19:30
Wireless
Communications
WIN01
Testbeds and
Deployment
WIN02
Software Defined
Networks and
Cloud-RAN I
NET01
SDN and IP
Networks
OPN01
Optical
Communication
Systems and
Technologies
PANEL1
5G requirements From Technology
to Verticals
Use Cases: How
New mmWaves
Technologies
Can Lead to an
Immersive User
Experience
16:30
18:00
PHY01
SPS04
SPS03
5G Scenarios and
22 Apr. 2016
W06
Tod Sizer
10.30
11.00
16:00
16:30
WWRF
Workshop A Business
and Enterprise
Perspective on
the Upcoming
5G Era
ROOM 12
OPENING
SESSION
KEYNOTE
SPEAKER:
09.00
10.30
14:30
16:00
W05
Workshop
on Network
Function
Virtualization
and
Programmable
Networks
W04
Art Research
Results in Green
Tomorrow
EUNC 2015 OVERVIEW
12:30
14:00
14:00
14:30
W04
ROOM 11
W03
11.00
12.30
ROOM 10
STANDING BUFFET LUNCH (FOYER DEBUSSY)
15.30
16.00
16.00
17.30
ROOM 9
W03
11.00
12.30
ROOM 8
QoS/QoE
Monitoring and
Management
with SDN
PHY02
Communication
Theory & Fading
TER01
Testbed and
Experimental
Research 1
WIN03
Radio Resource
Management
WELCOME RECEPTION (FOYER DEBUSSY AND HALL MENAND)
APS01
Cloud
Computing
EUNC 2015 OVERVIEW WEDNESDAY, 1 JULY 2015
ROOM BERLIOZ
MOLIÈRE
ROOM 5
ROOM 6-7
ROOM 9
ROOM 10-11
ROOM 12
KEYNOTE
SPEAKER:
09.00
10.30
Hakan Ohlsen
KEYNOTE
SPEAKER:
Alain Maloberti
10.30
11.00
14:30
16:00
EXHIBITIONS DEMOS
12:30
14:00
14:00
14:30
SPS06
11.00
12.30
5G for Vertical
Industries
6th Usage Areas
SPS05
Performance
Analysis
of Multi-User
Communication
Systems
PHY03
WIN05
Information
Theory & Coding
Quality of Service
TER02
Testbed and
Experimental
Research 2
PANEL2
IoT, 5G, Big Smart
Data Interplay - The
Convergence and
Integration of Mobile
Communications,
Internet, and Big
Data Processing
Introducing THE
5G-INFRASTRUCTURE - PPP
- Launching the
European 5G
Initiative - Part I
SPS07
COST Highlight
- Optimal End-toEnd Multimedia
Communication
20.00
23.00
PHY04
Next Generation
Networking
OPN02
Optical Networks
EXHIBITIONS DEMOS
ROOM BERLIOZ
13.30
14.30
WIN06
SPS08
Interference
Management
Opportunistic and
Cooperative
Communications
APS02
Wireless
Networks
CONFERENCE DINER - BATEAUX-MOUCHES® CRUISE IN PARIS
EUNC 2015 OVERVIEW
12:30
13:30
5G Mobile
Networks
16:30
18:00
11.00
12.30
NET02
SPS09
10.30
11.00
Software Defined
Networks and
Cloud-RAN II
16:00
16:30
09.00
10.30
WIN04
SPS10
Introducing
THE 5G-INFRASTRUCTURE-PPP
- Launching the
European 5G
Initiative - Part II
MOLIÈRE
SPS11
Celtic-Plus
Perspectives of
Network Softwarisation as a 5G
Enabler
ROOM 5
ROOM 6-7
ROOM 9
PHY05
WIN07
WIN08
Selected Areas in
Communications
Relay
and Multihop
Networks
Cognitive Radio
ROOM 10-11
NET03
Information
Centric Networks
PANEL3
Optical Networks
The key technology
For enabling the
deployement of
global ICT accross
society
CLOSING
SESSION
STANDING
BUFFET
LUNCH
(FOYERDEBUSSY
DEBUSSYAND
ANDHALL
HALLMENAND)
MENAND)
STANDING
BUFFET
LUNCH
(FOYER
http://www.eucnc.eu
Organised by:
ROOM 12
APS03
Traffic Modeling
and Security

Available - EuCNC 2016

Transcription

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