here. - SoSE 2016

IEEE 11th International Conference on
System of Systems Engineering
(SoSE 2016)
June 12th – 16th, 2016
Kongsberg, Norway
Final Proceedings (XPLORE COMPLIANT) “USB” Proceedings
CFP16SOS-ART 978-1-4673-8727-9
CFP16SOS-USB 978-1-4673-8726-2
Conference Theme
System of systems and cyber physical systems,
from academia to application and back
Message from the Program Chairs
Welcome to the 11th International IEEE Conference on System
of Systems Engineering (SoSE 2016) in Kongsberg, Norway. We
are very proud of the quality of the papers submitted to the conference. A total of 113 papers where submitted for this year’s
conference. With the help of our dedicated program committee
members and reviewers we have conducted over 300 reviews,
based on which 83 papers were selected and with a rejection rate
of 26.5%.
The program chairs would like to acknowledge the program committee members
and the reviewers that made it possible to process review and select the papers
presented in this conference in a very short time period. Without their help
this conference would not have been possible. With sincere apologies to anyone
whose name was inadvertently omitted, the help of the following individuals who
serve as the Program Committee, helped in reviewing papers, and perform other
needed chores, is very much appreciated.
S. K. Agrawal
Marco Aiello
Mehmet Aksit
Gary Anderson
Henric Andersson
Jonas Andersson
Aurilla Arntzen
Jakob Axelsson
Mikhail Belov
Patrick J Benavidez
Christian Berger
Kul Bhasin
G. Maarten Bonnema
Michael Borth
Abdelmadjid Bouabdallah
Jan Broenink
Stephen Bruder
Benjamin Champion
Jiann-Liang Chen
Hyun Cho
Eyup Cinar
Loïc Cudennec
Cihan H Dagli
Judith S. Dahmann
Hamid R. Darabi
Pierre Dersin
Paruchuri Dileep
George Dimitrakopoulos
2
Lars Dittmar
Huseyin Dogan
Alex Duffy
Nil Ergin
Berat Alper Erol
Kristin Falk
Kim Gruettner
Jian Guo
Karthik Haradi
Cecilia Haskins
Harry Hendrickx
Michael Henshaw
Ben Horan
Aldo Jaimes
Mo Jamshidi
Vinay Kariwala
Kashif Kifayat
Syoji Kobashi
Hariharan Krishnaswami
Sulabh Kumra
Inga Lapina
William Lawless
Wenbin Luo
Seyed Ali Miraftabzadeh
Amin Mirakhorli
Saurabh Mittal
Leo Motus
Gerrit Muller
Matthew Joordens
Deakin University, Australia
Koji Murai
Salman Nazir
Kjell Ivar Øvergård
Luca Piciaccia
Jaci Pratt
John J Prevost
Ahmad Rad
George Rebovich, Jr.
Matthias Reuter
Stuart Rubin
Mahdy Saedy
Ferat Sahin
Alejandro Salado
Erwin Schoitsch
Frank Schultmann
Carys Siemieniuch
Joseph J Simpson
Jacek Skowronek
Alberto Sols
Kambiz Therani
Tetsuo Tomiyama
Martin Torngren
Theo Tryfonas
Joachim W. Walewski
Kevin Wedeward
Torgeir Welo
Brian E. White
Yunus Yetis
Roberto Sacile
Università di Genova, Italia
Sponsors
SoSE 2016 would not be possible without the following sponsors
Technical Sponsors
Academic Sponsors
Industrial Financial Sponsors
Institute of Electrical and
Electronics Engineers
IEEE Reliability Society
IEEE Systems Man and Cybernetics
Society
The international Council on
Systems Engineering
Technical Committee
Founding Chair
Mo Jamshidi - University of Texas San Antonio, USA
Conference General Co-Chairs
Gerrit Muller - University College of Southeast
Norway
Maarten Bonnema - University of Twente, the
Netherlands
Program Co-Chairs
Matthew Joordens Deakin - University, Australia
Roberto Sacile - Università di Genova, Italia
Finance and Local Arrangement Chair
Silja M. Sverreson - University College of Southeast
Norway
Sessions Chair (Papers, Panels, Tutorials/Workshops)
Brian White - CAU←SES, USA
Publications Chairs
Patrick Benavidez - University of Texas, San Antonio,
USA
Yang Yang Zhao - University College of Southeast
Norway
Academic Chair
Saeid Nahavandi - Deakin University, Australia
Industrial Liaisons
Garry Roedler - Lockheed Martin, USA
Paul Hershey - Raytheon Corporation, USA
Jean-Luc Garnier - Thales, France
Rolf Qvenild - University College of Southeast Norway
Kristin Falk - University College of Southeast Norway
European Liaisons
John Fitzgerald - Newcastle University, UK
Asia & Pacific Liaisons
Quoc Do - Frazer-Nash Consultancy, Adelaide,
Australia
USA Liaisons
Alex Gorod - City University of New York - Baruch,
USA
Rob Cloutier - University of South Alabama, USA
Students – Local Arrangement
Emilie Folvik Aune
Simen Bilstad Klungland
Local Arrangement
Roy Damgrave - Twente University
Inge Dossantos-Smit - Twente University
3
Conference Program outline
Monday morning, June 13, Timeslot 1
Sunday 12th
Start
17:00
Registration and Welcome reception
Monday 13th
Start Parallel Session A
Parallel Session B
Parallel Session C
Parallel Session D
08:40 Keynote speaker - Competence Manager Max Berthold: “Micro meets macro
and a new Klondyke for System Architects and System Thinkers is created.”
09:55 Complexity Management: Smart Grid
Soft Systems Engineering Embedded Multi-Core, Mixed-Critical
Modeling and Analysis
Architectures
Education
Systems Engineering
13:00 Keynote speaker - Fred van Houten from Twente University “Cyber Physical Systems, Enablers of the Smart Factory”
14:15 Autonomous and
SoS Architecture and
Human-Centered Design Panel: Moving SoSE from Theory to
Collaborating Robots
Formal Modeling
Practice
19:00 Silver mines
Tuesday 14th
Start
08:25
09:55
Parallel Session A
Parallel Session B
Parallel Session C
Parallel Session D
Keynote speaker - Per Olaf Brett from Ulstein: “The rise of systems thinking in the management of ship
Cyber Security and CPS
Application of Theory to Industrial Session
Research
Practice
13:00
Keynote speaker - Larry Leifer from Stanford University: “Dancing with Ambiguity:
Embracing the Tension between Divergent and Convergent thinking in Systems Engineering”
Simulation and Modeling
Cloud and Service
Industrial Session
Coalition Defense
Architectures
14:15
16:00
Model Based Requirements
and Tools
19:00
Banquet at Smeltehytta
Model Based Alternatives
Design
Wednesday 15th
Start
08:25
09:55
13:00
14:15
16:00
4
Workshop/Tutorials
1. Systems Engineering for
Strategy Design
2. Systems Engineering for
Strategy Design
Workshop/Tutorials
design- recent advances made in industry”
1. Complex Systems:
How to Recognize Them and Engineering
Them
2. Complex Systems:
How to Recognize Them and Engineering
Them
Internet of Things 3. Complex Systems:
How to Recognize Them and Engineering
Them
Parallel Session A
Parallel Session B
Parallel Session C Parallel Session D
Keynote speaker - Vessela Kristensen from Oslo Cancer Research;” The fast evolving field of cancer research”
Transportation
Ocean Space: Maritime
Systems
Excursion to Kongsberg Technology Park
10:45
Engineering the Smarts
Michael Borth and
Martijn Hendriks
11:10
Externalities and Peer Effects of
Collective Adoption in Networks
Arash Vesaghi and Mo Mansouri
11:35
12:00
Workshop/Tutorials
1. A systemic and systematic
methodology for solving complex
problems.
Keynote speaker - Heico Sandee from Smart-robotics: “SoS in Robotics and its influence on the performance of a band of music robots”
Embedded Software and
Ocean Space: Maritime
Case Studies - I 2. A systemic and systematic
Formal Models
Engineering
methodology for solving complex
problems.
Manufacturing and Business
Control System Analysis,
Case Studies - II Panel: Trans-Atlantic SoS
3. A systemic and systematic
Architectures and Enterprises Design, and Development
Research and Education
methodology for solving complex
problems.
Thursday 16th
Start
09:30
Industrial Session
Classroom 2228/2230
Auditorium Becker
Conference Registration
Welcome; Kongsberg Mayor Kari Anne Sand (Room 2403 Oksen)
Keynote 1 - Max Berthold from Swedish Defense Material Administration (Room 2403
Coffee Break
Parallel Session A
Parallel Session B
Complexity Management: Modeling Smart Grid Architectures
and Analysis
Joachim Walewski
George Rzevski
09:55 Managing Complexity: Theory and A Standards-based Approach for Domain Specific
Practice
Modelling of Smart Grid System Architectures
George Rzevski
Christian Neureiter, Mathias Uslar, Dominik Engel,
and Goran Lastro
Best paper
10:20 Leadership Under Conditions of Architecture study of an Energy Microgrid
Complexity
Ravi Patel, Daniel Selva, and Walter Paleari
Brian White
07:30
08:15
08:40
09:25
Theme
Auditorium Hegstad
Classroom 2225/2227
Oksen)
Parallel Session C
Soft Systems Engineering Education
Mo Jamshidi
Workshops/Tutorials
Pedro Mendes
The nuts and bolts of systems
Joseph Kasser
Workshop
Systems Engineering
for Strategy Design
How to stimulate SoSE engineers to
develop soft skills? How effective is a
lecture in Non-Verbal Communication?
Lia Charité and Gerrit Muller
Simulation and Analysis of Maximum Power Point Blended education for systems
architecting Evaluation of the initial
Tracking in a Stand Alone PV system: A case
study using regression analysis and Pulse Width blended course version
Modulation
Gerrit Muller, Joris van den Aker
Osamede Asowata, Christo Pienaar
and Herman Postema
and Ruaan Schoeman
A Decade of Teaching Systems
Model-based Interoperability Solutions for the
Supervision of Smart Gas Distribution Networks Engineering to Bachelor Students
Ahmed Ahmed, Mathias Kleiner, Lionel Roucoules, G. Maarten Bonnema, Ilanit LuttersWeustink, and Juan Jauregui Becker
Rèmy Gaudy, and Bertrand Larat
MAS based Approach to HEMS Modeling:
Application of Social Interaction Mechanism to
Demand-side Dynamics
Dong Joo Kang and Sunju Park
Lunch
Full-day tutorial/workshop #1
Time:
Monday, 9:55 – 16:20
Title:
Systems Engineering for Strategy Design
Facilitator: Pedro Mendes, Senior Researcher, Tenured Faculty
Motivation: The central
tenet is that strategy is
conveyed throughout the
organization as a model
of intended future. A
robust method for strategy
design comes at the
expense of needing to learn
tools typically foreign to
management education.
Yet, lacking a sciencebased approach to strategic
modeling, executives adapt
ideas from selected thinkers,
often by trial and error.
Research limitations/implications
– Too large a spectrum of concepts
is a limitation to a full coverage of
strategic management. The tutorial still shows a method to model
and simulate the current situation;
deduce and test a strategy; make it
robust to arbitrary external events;
drive the analysis of operational
risks; and build the implementation
project. Rather than a detailed map,
the approach nevertheless provides
enough landmarks to support future
research.
Practical implications – The aim
is to provide a systems engineering approach to address currently
perceived strategic problems, supported by off-the-shelf tools from
engineering and mathematics. The
orchestrated contribution of timeproven tools allows creating strategies whose implementation can be
designed, whose outcomes can be
Continues on page 6
5
predicted, and whose results can be
certified.
will hopefully contribute to shape
the thinking of future researchers.
Originality/value – The end
result includes the formal strategy
documentation, the implementation project plan, the design of new
or modified processes, and the
specification of supporting technologies. The concepts provided can be
operationalized by organizations
needing to build strategies whose
intended implementation results
can be certified. The ideas presented
Aims and objectives – to solve a
business strategic management
case study using systems engineering techniques while walking the
participants through a sequence
of steps from problem analysis to
implementation.
Facilitator: J. Pedro Mendes
(1990). He currently lectures on Engineering/Technology Management
at University of Lisbon, Portugal. He
entered academia after more than
15 years of hands-on experience in
computers and software, having
done consulting and held engineering and management positions in
government agencies as well as
manufacturing and service companies
Biography: Dr. Mendes has a Ph.D.
in “Industrial and Systems Engineering” from Virginia Tech, USA
Keynote speaker # 1
6
Time:
Title:
Monday, 8:40-9:25
Micro meets macro and a new
Klondyke for System Architects and
System Thinkers is created.
Presenter:
Max Berthold, Project Manager
Presentation abstract: The
possibility to create vast
complex system-of-systems
based on communicating
subsystems is enormous.
We have just set out on
a journey of a new era.
The development is all
around us and it involves
all social layers in our
societies as it spans around
the globe. Cyber Physical
Systems or Internet of
Things also brings new
opportunities and challenges
to our nations’ procurement
organizations to move
away from buying complete
systems and start to buy
subsystems and become lead
integrators.
which has existed for a long time in
the Software industry, is therefore
now gaining a new interest with
focus on higher levels in the system
hierarchy. Systems Thinkers are also
a category of people which gain in
popularity since the ability to handle
the transformation from a high level
capability into system-of-systems
design and vice versa on the new
higher and by that far more complex system level is not something
that regular engineers/Software
Engineers are used to do.
One driver for this is to increase the
competition between the suppliers another driver is the mixture of
subsystems various life times and
also the possibility to utilize technology development in a smoother
way. Regardless the incentives this
trend put a pressure on the Defence
Materiel procurement organizations as well as other Governmental
materiel procurement organizations
such as the Police, Coast Guard,
Health Care etc., when it comes to
employees who can handle system design and management of
system-of-system solutions based
on plug-play technology on a macro
level. The role System Architect,
Therefore there is a great future for
Software Engineers who move out
of the micro world and learn more
about the macro world and the application domain as in cars, houses
and airplanes as well as System
Engineers which needs to get more
involved with Software/Hardware
Engineers in order to think the Big
Pictures, do the correct Systemof-Systems Engineering and at the
same time create value to their
organizations/companies.
Biography: Max Berthold is currently working as project manager
for Sweden’s new Ground Based
Air Defence system at the Swedish
Monday afternoon June 13, Time slot 2
Classroom 2228/2230
Auditorium Becker
Auditorium Hegstad
13:00 Keynote 2 - Fred van Houten from Twente University (Room 2403 Oksen)
13:45 Coffee Break
Parallel Session A
Parallel Session B
Parallel Session C
Theme Autonomous and Collaborating
SoS Architecture and Formal
Human Centered Design
Robots
Modeling
Yang-Yang Zhao
Adrian Gheorghe
Jan Broenink
Formally Describing the
Systems Thinking:
14:15 Kinect with ROS, interact with
Software Architecture of
Foundations for Enhancing
Oculus: Towards Dynamic User
Interfaces for Robotic Teleoperation Systems-of-Systems with SosADL System of Systems
Engineering
Flavio Oquendo
Michael Mortimer, Ben Horan, and
Charles Keating, and Adrian
Matthew Joordens
Gheorghe
Simplifying Solving Complex
14:40 Proposed Testbed for the Modeling Pi-Calculus for SoS: A
Foundation for Formally
Problems
and Control of a System of
Describing Software-intensive
Autonomous Vehicles
Joseph Kasser, and YangSystems-of-Systems
Joaquin Labrado, Berat Alper Erol,
Yang Zhao
Jacqueline Ortiz, Benjamin Champion, Flavio Oquendo
Patrick J Benavidez, and Mo Jamshidi
Wicked problems: Wicked
15:05 Autonomous Robotic Fish for a
Using the View Model to
solutions
Swarm Environment
Contextualize and Explain
Luke Kiebert and Matthew Joordens System-of-Systems Architecture Joseph Kasser, and YangModels
Yang Zhao
Joachim Walewski and Jürgen
Heiles
SmartDisability: A Smart
Combinatorial Models For
15:30 Ontology-Based Collaboration in
System of Systems
Heterogeneous System
Multi-Robot System: Approach and
approach to Disability
Composition and Analysis
Case Study
Alexander Smirnov, Alexey Kashevnik, Saigopal Nelaturi, Vadim Shapiro, Paul Whittington, and
Huseyin Dogan
and Johan de Kleer
Sergey Mikhailov, Mikhail Mironov,
and Mikhail Petrov
Building a HIS supervision
Formal Methods for a System
15:55 Increased Functionality of an
of Systems Analysis Framework Metamodel
Underwater Robotic Manipulator
Applied to Traffic Management Farid Lahboube, Ounsa
Benjamin Champion, Mo Jamshidi,
Charles E. Dickerson, Siyuan Ji, Roudiès, and Nissrine
and Matthew Joordens
and Rosmira Roslan
Souissi
19:00 Silvermine
Defence Materiel Administration
(FMV). He also holds the position as
Competence Manager for Systems
Engineering at his office. As Competence Manager Max is responsible
for the Systems Engineering training at FMV. Max has a MSc Electrical Engineering degree as well as an
MBA in Business Development and
he is also a former technical officer
from the Swedish Armed Forces
Ground Based Air Defence Regiment.
The last 10 years Max has been
deeply involved with Systems
Engineering and especially issues
related to System-of Systems as
FMV’s former Director of Technology and Product coordination where
one of Max’s responsibilities was to
manage FMV’s product portfolio. As
Director of Technology and Product coordination, Max also handled
FMV’s technical processes and the
organization’s implementation of
the Life Cycle Model ISO 15288.
Max has been an individual INCOSE
member and FMV’s representative
in INCOSE’s Corporate Advisory
Board the last 10 years. He has also
been the Corporate Advisory Board’s
Co-chair and Chair the last 4 years.
Max is a Certified Systems Engineer
Professional.
Classroom 2222/2224 Classroom 2225/2227
Parallel Session D
Panel: Moving SoSE
from Theory to
Practice
Garry Roedler
Stephen Cook
Rich Turner
Reggie Cole
Judith Dahmann
Workshops/Tutorials
Workshop
Systems Engineering
for Strategy Design
Pedro Mendes
As FMV’s former project manager
for Nordic Defence Cooperation
(NORDEFCO), Max also has experience from cooperation among the
Nordic Nations regarding Systems
Engineering and their National Defence Procurement agencies.
7
Keynote speaker # 2
Time:
Title:
Presenter:
(Foundation Technical Education
and Service Twente), Fris (Creative
Industry) and Leo-center for service
robotics. In April 2009 Prof. van
Houten has been elected as member
of the Deutsche Akademie der Technikwissenschaften (acatech) and
in August 2010 he has been elected
President of the International Academy for Production Engineering
(CIRP).
Monday, 13:00-13:45
Cyber Physical Systems, Enablers
of the Smart Factory
Prof. Fred van Houten, University
of Twente
Presentation abstract:
Industry 4.0 is hot! What
will the fourth industrial
revolution bring us?
After sketching the historical
perspective of previous
industrial revolutions and
their influence on humans
activities and wellbeing,
the recent developments in
manufacturing paradigms
and equipment are
presented.
The factory of the future will be
flexible and sometimes highly automated. This depends on variability
and quality requirements.
Cyber physical systems or the
Internet of Things is the merger
of the internet of services as we
know it from e-mail and web shops
with industrial automation equipment. Robots have become more
dexterous and affordable. Modular
machines can be equipped with
cheap servo controllers and communication equipment. New materials and manufacturing processes
allow for innovative smart products
Tuesday morning, June 14, Timeslot 3
and production systems. The smart
products industry will be energy
and resource efficient and offer attractive jobs that require continued
education and training.
Biography: Prof. van Houten is the
head of the “Design Department” of
the Faculty of Engineering Technology at the University of Twente. The
department is also comprising the
chairs of Product Design, ProductMarket relations, Packaging Design
and Management, Maintenance
Engineering and Integrated Product
Life Cycle Management. The group
consists of more than 60 staff members and 30 PhD students, which
are active in a wide area of research
in Design Integration and Process
Modeling.
Prof. Van Houten is member of the
High Level Group of the Enabling
Technology Platform “Manufuture”
of the European Commission, the
national Smart Industry Forum
and of the foundations STODT
In 2011 he has been elected as
foreign member the Royal Flemish
Academy of Belgium for Science
and the Arts (KVAB). In that year he
also became member of the Berliner
Kreis (Wissenschaftliches Forum
für Produktentwicklung e.V.), the
Wissenschaftliche Gesellschaft für
Produktentwicklung (WiGeP). On
4 June 2012 Prof. van Houten was
awarded with the 2012 Gold Medal
of the Society of Manufacturing
Engineers (SME). On 12 June 2012
Prof. van Houten has been elected
as Fellow of the Design Research
Society (DRS) and as Fellow of
the International Society for Nano
Manufacturing (ISNM).
Prof. van Houten has published
more than 150 scientific papers and
has presented 34 invited keynote
papers. He has been chairman of
the Editorial Committee of the CIRP
annals from 2000 until 2006. At
present he is member of the editorial board of several international
Journals.
Full-day tutorial/workshop # 2
8
In the field of systems engineering (SE) you may already be
familiar with, or at least have heard about, the burgeoning
activity in topics of System of Systems (SoS), Enterprise
Systems Engineering (ESE), and Complex Systems
Engineering (CSE).
There exists a fair amount of controversy as to the degree to which
traditional (or conventional or
classical) methods of systems engi-
neering (TSE) are able to address
our most difficult complex systems
problems, or whether this brand of
complexity requires some new ways
Classroom 2228/2230
Auditorium Becker
07:30
Conference Registration
08:15
Start
08:25
Keynote 3 - Per Olaf Brett from Ulstein (Room 2403
09:15
Coffee Break
Parallel Session A
Parallel Session B
Theme Cyber Security and CPS
Application of Theory
Research
to Practice
Jakob Axelsson
Garry Roedler
09:55
On the impact of emergent Moving Towards
properties on SoS security Standardization for
Marco Mori, Tommaso Zoppi, System of Systems
Engineering
Andrea Ceccarelli, and
Judith Dahmann and
Andrea Bondavalli
Garry Roedler
10:20
Quantification of Impact
of Cyber Attacks: A Study
on Reliability of Power
Generation Systems
Hayretdin Bahsi, Unal Tatar,
and Adrian Gheorghe
Typology Dimensions
for Classifying SoSE
Problem Spaces
Stephen Cook
and Jaci Pratt
10:45
Development of the
xTAN method for Cyber
Physical Systems (CPS)
under electromagnetic
environment
Olivier Maurice, Kambiz
Therani, and Philippe
Durand
11:10
DATASEM: A Simulation
Suite for SoSE
Management Research
Richard Turner, Alice
E. Smith, Jeffrey
Smith, Levent Yilmaz,
Donghuang Li, Saicharan
Chada, and Alexey
Tregubov
Developing Respondent
Systems
Craig Wrigley
Gaining and Keeping
Overview of Complex RTDI
Projects with the DEWI
Assessment and Monitoring
Framework (DEWI-Frame)
Joachim Hillebrand, Michael
Karner, and Werner Rom
Interface Design in Cyber- Master systems
Physical Systems-of-Systems engineering complexity
(sponsor)
Bernhard Frömel
Thierry Ambroisine
Lunch
11:35
12:00
Time:
Title:
Tuesday, 9:55 – 17:15
Complex Systems: How to Recognize
Them and Engineer Them
Facilitator: Principal Brian E. White
of thinking, to paraphrase one of
Albert Einstein’s famous quotes.
In particular, transforming project
management to a more systemic
(rather than purely systematic) approach is highlighted.
This tutorial/workshop facilitates a
learning experience by
1 explaining and giving examples
of the basic ideas behind complexity theory, complex systems
behaviors, and CSE;
2 reviewing a multitude of related
definitions to reach a better un-
Auditorium Hegstad
Classroom 2222/2224
Classroom 2225/2227
Parallel Session D
Embedded Multi-Core, MixedCritical Systems Engineering
George Dimitrakopoulos
Measuring Tool Chain
Interoperability in Cyber-physical
Systems: A Systematic Review
Didem Gürdür, Fredrik Asplund,
and Jad El-khoury
Workshops/Tutorials
Brian White
Oksen)
Parallel Session C
Industrial Session: Knowledge
Based Design
Leif Naess
Model-Based Systems
Engineering and Knowledge
Management in KDA Missiles:
Increasing the value of system
design activities - introducing
Contextualized Documentation
Olaf Tonning
Knowledge Based Development
- Experience in FMC
Tom Nordgård
How Semcon Devotek applied
KBD methodology in an
autonomous speciality vehicle
demonstrator project Baard Røsvik
Tutorial/Workshop
Complex Systems:
How to Recognize
Them and Engineer
Them
A Multi-core Context-Aware
Management Architecture for
Mixed-Criticality Smart Building
Applications
George Dimitrakopoulos, George
Bravos, George Dimitrakopoulos,
Mara Nikolaidou, Vassilis
Nikolopoulos, and Dimosthenis
Matlab2cpp: a Matlab-to-C++
code translator
Geir Yngve Paulsen, Jonathan
Feinberg, Xing Cai, Bjørn
Nordmoen, and Hans Petter
Dahle
WAMS - Increasing operability
by bringing the analytical
models subsea
Siv Engen
Digital Twin a facilitator for
Systems Engineering
Magnus Normann
derstanding of the terminology;
3 presenting CSE principles that
may improve “mindsights” in
ways that may help you accelerate progress in your SE efforts,
especially in confronting the
most difficult problems facing
our world and/or in your respective activity domain(s);
4 providing a few of simple “cha-
Continues on page 10
9
ordic” artifacts for characterizing
your SE environment and what
you are doing about it; and
5 suggesting an updated Complex
Adaptive Systems Engineering
(CASE) methodology of CSE that
you might try applying.
Teamed class exercises will stimulate creative thought and interactions among participants. All this
and the ensuing discussions should
further mutual understanding and
better prepare you for future SE
endeavors.
Facilitator: Brian E. White
Biography: Brian E. White received
Ph.D. and M.S. degrees in Computer
Sciences from the University of Wisconsin, and S.M. and S.B. degrees in
Electrical Engineering from M.I.T.
He served in the U. S. Air Force, and
for 8 years was at M.I.T. Lincoln
Laboratory. For 5 years Dr. White
was a principal engineering manag-
er at Signatron, Inc. In his 28 years
at The MITRE Corporation, he held
a variety of senior professional staff
and project/resource management
positions. He was Director of MITRE’s Systems Engineering Process
Office, 2003-2009. Dr. White retired
from MITRE in July, 2010, and currently offers a consulting service,
CAU←SES (“Complexity Are Us”←
Systems Engineering Strategies).
Keynote speaker # 3
Time:
Title:
Presenter:
Tuesday, 8:25 – 9:10
The rise of systems thinking in
the management of ship design –
recent advances made in industry
Dr. Per Olaf Brett, Deputy
Managing Director
Presentation abstract:
This key note presentation
addresses the challenges
of improving the systems
based ship design approach
by suggesting how current
systems thinking can
conceptually and in practice
be successfully applied
to inventive ship design
by means of alternative
and enhanced design
methodologies. Recent
experiences by the author
shows that too little focus
and time are spent on
the new building phases
upstream and downstream
in a new building project
to achieve overall project
effectiveness.
10
Upstream, a proper dialogue with
the decision-makers and project
stakeholders more generally, about
their preferences and objectives
must be facilitated and catered for.
Downstream, it is paramount that
better focus is set on where to spend
Biography: Dr Per Olaf Brett is currently the Deputy Managing Director in Ulstein International AS. As a
Deputy Managing Director he is responsible for business development,
market analysis, strategic products
and services research & innovation
and coaching and mentoring.
Dr Per Olaf Brett received his
Doctor of Business Administra-
13:00
13:45
Theme
14:15
14:40
time, use expertise and introduce or
save costs and time to secure a successful realization of the new building project. Not only a significant
vessel must appear, but the timely
delivery of it at agreed upon quality
and price and its goodness of fit for
purpose and market are paramount. It is suggested that advances and
significant improvements can
be made to existing ship design
approaches in applying multidisciplinary theory and systems
thinking approaches and social
science research contributions. It
is argued that more effective ship
design solutions and the process
complementing it can emerge out of
systemic-based ship design methodology and critical systems thinking.
A discussion of the early application
of state-of-the-art systems’ thinking
and systemic-based design methodology and their resulting advances
are shared. Limitations and suggestions for further advances of the
methodology and its practice are
discussed.
Tuesday afternoon June 14, Timeslot 4
15:05
tion (Ph.D./D.B.A/Dr.Oecon) from
Brunel University, Henley Management College, UK. He has a Master
of Business Administration (M.B.A)
from HMC, UK and an Advanced
Postgraduate Diploma in Management Consultancy (ADipC). He is a
Military Academy Graduate - Special
Duties, the Royal Norwegian Navy
Bergen. He also has a Bachelor of
Science w/Honours (B.Sc.) from the
Kings College University of Newcastle upon Tyne. From 1977 to 2007
he worked in Det Norske Veritas AS
(DNV) Norway with Management
positions and international assignments. He has been President (CEO)
of the International Loss Control Institute Inc. in Atlanta, Georgia, USA
from 1991 to 1994 and Managing
Director of Computas Expert Systems AS in Oslo from 1989 to 1991.
Dr Brett is also holding a Professorship in Shipping at the Norwegian
School of Management (BI), Institute for Strategy and Logistics Oslo
and a Professorship in Management
of Marine Design at the Norwegian
University of Science and Technology (NTNU) Faculty of Marine Science and Technology Trondheim.
15:30
Classroom 2228/2230
Auditorium Becker
Keynote 4 - Larry Leifer from Stanford University (Room 2403 Oksen)
Coffee Break
Parallel Session A
Parallel Session B
Simulation and Modeling
Cloud and Service Architectures
Michael Borth
Henrique Gaspar
Auditorium Hegstad
Classroom 2222/2224
Parallel Session C
Parallel Session D
Industrial Session:
Coalition Defense
Human Centered Design Judith Dahmann
Leif Naess
System oriented Design Architecture and
Simulation for a Coevolved System- Efficient Distributed Algorithm
System-of-Systems Design
of-Systems Meta-Architecture
for Scheduling Workload-Aware Birger Sevaldsson
for Integrated Missile
Jobs
on
Multi-Clouds
George Muller, and Cihan H Dagli
Defense
Seyed Ali Miraftabzadeh, Paul
James Kilian and Tod
Rad, and Mo Jamshidi
Schuck
Service Architectures for Product How to integrate human Coalition Command and
A New Small-World Network
factors in the industrial Control - Simulation
Model for Instant Messaging Chat and Production Availability: A
engineering design
Interoperation as a
System of Systems Approach
Network
System of Systems
Mathias Johanson, and Lennart process?
Jinting Guan, Meishuang Tang,
Adam
Balfour
John Mark Pullen and
Guangzao Huang, Wenbing Zhu, Sun Karlsson
Ole Martin Mevassvik
Zhou, and Guoli Ji
Applying Human
Logical Representation of
Use Case based Approach for an
Centered Design in the
Integrated Consideration of Safety Maintenance Procedures for
automotive industry
Verification and Analysis
and Security Aspects for Smart
Home Applications
Daniel Klemetsen and
Sean Reed, and Magnus
Jan-Peter Nicklas, Michel Mamrot, Löfstrand
Laura Walden
Petra Winzer, Daniel Lichte, Stefan
Marchlewitz, and Kai-Dietrich Wolf
Coffee Break
Classroom 2225/2227
Workshops/Tutorials
Brian White
Tutorial/Workshop
Complex Systems:
How to Recognize
Them and Engineer
Them
Keynote speaker # 4
Time:
Title:
Presenter:
Tuesday, 13:00-13:45
Dancing with Ambiguity: Embracing the Tension between Divergent and Convergent
thinking in Systems Engineering
Prof. Larry Leifer, Stanford University
Presentation abstract: Over the past thirty years, a
powerful methodology for innovation has emerged. It
integrates human, business and technical factors in problem
forming, solving and design: “Design-Thinking.” This
human-centric philosophy integrates expertise from the
design, social, management, and engineering sciences to
create a corpus of behaviors that are best implemented
by small high-performance project teams. It produces a
vibrant interaction environment that promotes creativity
and rapid learning cycles through conceptual prototyping.
The methodology has proven successful in the creation of
innovative products, systems, and services.
Design-thinking works. Industry
and academia are subscribing to
boot camps and immersive workshops, and corporate re-organization. Teams of industry, government
and education experts are tackling
complex problems and finding powerfully adaptive solutions. The time
is right to apply rigorous academic
research to understand how, when
and why design thinking works and
fails. It is time to create next genera-
tion design thinking behaviors and
supporting tools.
Through courting ambiguity, we can
let invention and innovation happen even if we cannot make them
happen. We can nurture behaviors
that increase the probability of finding a path to innovation in the face
of uncertainty. Emphasis is placed
on the questions we ask in balance
Continues on page 12
11
with the decisions made. A suite of
application examples and research
findings will be used to illustrate the
concepts in theory and in practice.
Biography: Larry Leifer is a Professor of Mechanical Engineering
in the School of Engineering at
Stanford University. He joined the
faculty in 1976 after serving as an
assistant professor at the Swiss
Federal Institute of Technology,
Zurich, and 4 years at the NASA
Ames Research Center’s Human
Information Processing laboratory.
His education credentials include
a Bachelor’s degree in Engineering
Science, Master’s degree in Product
Design (art), and PhD in Biomedical
Engineering (neurosciences). He has
served as founding director of the
Stanford Veterans Administration
Rehabilitation Engineering R&D
Center; Smart Product
Design Lab; Center for Design
Research (CDR); Stanford Learning Lab; and Hasso Plattner Design
Thinking Research Program at
Stanford.
His teaching-laboratory is the
graduate course ME310-Global,
“Industry Project Based Engineering
Design, Innovation, and Development.” Research themes include: 1)
creating collaborative engineering
design environments for distributed
new product innovation teams; 2)
instrumenting that environment for
design knowledge capture, indexing,
reuse, and performance assessment;
and 3), design-for-sustainable-wellbeing. His top R&D priorities in the
moment include, d.swiss, humanrobot teamwork relationship design,
and the notion of a pan-disciplinary
PhD program in Design Thinking.
His top honors include an honorary
doctorate from the Royal Institute of
Technology, Stockholm, SE; honorary fellow of the Design Society; and
visiting Professor at the University
of Tokyo, JP; Swiss Federal Institute
of Technology, Zurich, CH; and the
Norwegian Institute of Systems
Engineering, Kongsberg, NO.
16:00
16:25
16:50
19:00
12
07:30
08:15
08:25
09:15
Theme
09:55
10:20
10:45
11:10
Tuesday late afternoon June 14, Timeslot 5
Theme
Wednesday morning, June 15, Timeslot 6
Classroom 2228/2230
Parallel Session A
Model Based Requirements and
Tools
Vernon Ireland
Model-Based Requirements and
Properties Specifications Trends
for Early Design Verification of
Embedded Systems
Muhammad Rashid, Muhammad
Waseem Anwar, Farooque Azam,
and Muhammad Kashif
MBSE Driven Approach for
Defining Problem Domain
Donatas Mazeika, Aurelijus
Morkevicius, and Aiste
Aleksandraviciene
Auditorium Becker
Parallel Session B
Model Based Alternatives Design
Stephen Cook
Auditorium Hegstad
Parallel Session C
Industrial Session
Leif Naess
Classroom 2222/2224
Parallel Session D
Internet of Things
Jonas Andersson
Challenges in the Modelling of
Design Alternatives with MBSE
Marco Di Maio, George Dimitrios
Kapos, Niklas Klusmann, and
Charles Allen
Systems engineering
Transition from closed
approach to qualification system to Internet
of Things A Study in
Tore Myhrvold
Standardizing Building
Lighting Systems
Emi Mathews and Gerrit
Muller
Model-Based Systems Product Line
Engineering with Physical Design
Variability for Aircraft Systems
Mole Li, Alan Grigg, Lin Guan, and
Charles E. Dickerson
Celebration 10 year
systems engineering in
Kongsberg
Gunnar Berge, Torkil
Bjørnson, Rune Thoresen
(CEO FMC), Erik Glende
(KOG), Mo Mansouri
(Stevens), Jan Erik
Korssjøen
A Systematic Investigation of
Tools in Model Based System
Engineering for Embedded
Systems
Muhammad Rashid and
Muhammad Waseem Anwar
Banquet
Enhancing Systems Engineering
by Scenario-based Anticipation of
Future Developments
Iris Graessler, Julian Hentze, and
Philipp Scholle
Towards Trustworthy
Smart Cyber-PhysicalSocial Systems in The Era
of Internet of Things
Jingwei Huang, Mamadou
Seck, and Adrian Gheorghe
Fuzzy Fault Tree Analysis
of Conventional Propellant
Temperature Control
System
Lin Lin Du and Zhenhua
Sun
Classroom 2225/2227
Workshops/Tutorials
Brian White
Tutorial/Workshop
Complex Systems:
How to Recognize
Them and Engineer
Them
11:35
12:00
Classroom 2228/2230
Auditorium Hegstad
Conference Registration
Start
Keynote 5 - Vessela Kristensen from Oslo Cancer Research (Room 2403 Oksen)
Coffee Break
Parallel Session A
Parallel Session B
Transportation
Ocean Space: Maritime Systems
Mohammad Rajabaline Nejad
Kristin Falk
Bi-objective shortest path problem with one fuzzy cost function for A reflection on the use of A3 architecture overview
dangerous good transportation on a road network
in designing Wave Energy Converters
Roberto Sacile
Emilie Aune, Henrik Lind, and Gerrit Muller
Operation, Safety and Human: Critical Factors for the Success of
Using Data Driven Documents (D3) to Explore a
Railway Transportation
Whole Ship Model
Mohammad Rajabaline Nejad, Leo van Dongen, and Alberto Martinetti John Calleya, Henrique Gaspar, and Rachel J Pawling
Fuzzy - Genetic Algorithm Approach to Generate an Optimal Meta- Recall Enhancement with Gaze Guiding:
Architecture for a Smart, Safe & Efficient City Transportation System Performance Support and Error Reduction in Dual
of Systems
Tasks
Rahul Alaguvelu, David M Curry, and Cihan H Dagli
Barbara Frank, and Annette Kluge
Analysis of the Information Needs of an Autonomous Hauler in a
Value perception of an offshore crane using
Quarry Site
electrical- vs. hydraulic main machinery system
Sara Dersten, Peter Wallin, Joakim Fröberg, and Jakob Axelsson
Elisabeth Masdal Hovden, Maria Varpen Unhjem, and
Henrique Gaspar
Enhancing safety of transport by road by on-line monitoring of
Low level reliability of interconnected systems ->
driver emotions
is FMEA the right tool
Roberto Sacile
Walter Caharija
Lunch
Classroom 2225/2227
Workshops/Tutorials
Joe Kasser
Tutorial
A systemic and
systematic methodology
for solving complex
problems
Full-day tutorial/workshop # 3
Time:
Title:
Facilitator:
Wednesday, 9:55 – 17:15
A systemic and systematic methodology for solving complex problems
Professor Joe Kasser
Problem-solving is the major function of both a systems
engineer and a project manager. Accordingly, developing
your problem-solving skills will enable you to succeed
in your jobs and should position you in the fast track for
promotion to the next level in your organization or a new
job at another organization. This tutorial focuses on systems
engineering as a systemic and systematic methodology for
solving complex problems. The tutorial discusses thinking,
systems thinking as a way of understanding a situation and
the benefits of going beyond systems thinking to determine
the problem and solution. The tutorial applies systems
thinking to systems engineering, provides the participants
with a number of conceptual tools, looks at systems and
their properties and then goes through each state of the
system lifecycle discussing what systems engineers do in
each state. The tutorial will provide participants with the
following useful conceptual tools for systems engineering
1 The three types of systems engineering
2 An N2 Chart
3 The Holistic Thinking Perspectives
4 A Template for critical analysis of
arguments
5 A process for tacking a problem
13
6 An understanding of the ‘A’ and
‘B’ systems engineering paradigms
7 A Problem Classification Matrix
8 The extended problem-solving
process and working backwards
(prevention)
9 A PAM Chart
10A Problem Formulation Template
11 The Hitchins-Kasser-Massie
Framework (HKMF) for understanding systems engineering
12Differentiating between Systems
Engineering – the Role (SETR),
and Systems Engineering – the
Activity (SETA)
13The Nine-Systems Model
Facilitator: Joseph E. Kasser
Biography: Dr. Joseph Kasser was
a practicing systems engineer and
manager for 30 years before joining academia. He is a recipient of
NASA’s Manned Space Flight Awareness Award (Silver Snoopy) for
quality and technical excellence for
performing and directing systems
engineering and many other awards
and commendations. He is an
INCOSE Fellow, a Fellow of the IET
and IES, holds a Doctor of Science in
Engineering Management from The
George Washington University, and
is both a Chartered Engineer and a
Certified Manager. He is currently
a Visiting Associate Professor at the
National University of Singapore.
His previous academic positions
include being a Leverhulme Visiting
Professor at Cranfield University,
England and the Deputy Director
and an Associate Research Professor at the Systems Engineering and
Evaluation Centre in the University
of South Australia. Dr Kasser has
given tutorials at INCOSE symposia,
SETE and APCOSE conferences.
He also has more than 20 years of
teaching experience in continuing
and postgraduate education.
Keynote speaker #5
Presentation abstract: We aim to translate Systems Biology
approaches into medical research and practice. In the era
of “precision revolution”, moving from crowd based, bestfor-all treatments towards patient tumor-tailored medicine,
a clear clinical need is to identify amongst the enormous
amount and variety of molecular markers generated by
systems biology those that should be added to the current
set of clinical predictors to improve diagnosis, prognosis
and treatment response. Scale-free rank-based Bayesian
meta analysis methodology as well as computational and
mathematical micro-scale cancer models will be applied.
14
Prior biological knowledge will
be crucial in restricting the model
space: Structures will be based
on broad biological knowledge of
interactions between different data
types derived from our current
studies, and Bayesian priors will
utilise experimental and text-mining
evidence (representing unsupervised knowledge). This information will be then used to develop
informative priors, which will be
introduced in a hierarchical Bayes
analysis of the -omics data. Creating algorithms that include available
genome-scale tumor molecular data
simultaneously generated from each
tumor, by DNA sequencing, mRNA
and miRNA expression profiling,
DNA copy number alteration (CNA)
and methylation data, we envision
Time:
Title:
Presenter:
Wednesday, 8:25 - 9:10
Systems medicine vs systems
biology: HEURstic models for
clinical decision in breast Cancer
(HEURECA)
Prof. Vessela N. Kristensen,
University in Oslo
Biography: Vessela N. Kristensen is
a Professor I at the Medical Faculty
of the University in Oslo (UiO) in
Clinical Epidemiology at the Department of Clinical Molecular Biology
and Lab science (EpiGen), Akershus
university hospital, and Group
Leader at the Department of Genetics, IKF, Det Norske Radiumhospital.
She has been also Professor II at
the Centre for Integrative Genetics,
University of Life Sciences, Ås and
assistant professor at the Advanced
Heico has a doctorate and over
15 years of experience in robotics
development. From 2010 to 2013
Heico was the robotics program
manager at Eindhoven University of
Technology and was platform manager of RoboNed, the Dutch robotics
platform.
Time:
Title:
Wednesday, 13:00 – 13:45
SoS in Robotics and its influence
on the performance of a band of
music robots
Presenter: Heico Sandee, Managing Director
Presentation abstract:
The complexity of robotic
systems is increasing at a
high rate. As Moore’s law
is still with us, computing
power is not restricting us
to significantly extend our
system boundaries and to
use complex algorithms like artificial intelligence - to
involve all data we can reach
over the internet.
Moreover, with robots coming out
or their cages, collaborative robots
even bring the human body and
mind within the system boundary.
To deal with this complexity, the
robotics community relies on a multitude of tools, software platforms
and data processing algorithms.
Nevertheless, robotics is heavily
lacking of methods to make the
right architectural decisions to
guarantee the performance of these
Systems-of-Systems. Therefore,
connecting the worlds of Robotics
and Systems-of-Systems Engineer-
to provide a “barcode” vector of the
disease of each individual patient,
which will enhance clinical decisionmaking.
We have generated all the molecular
data from both discovery and very
well clinically characterized validation datasets for a Proof of Concept.
We will be delivering reliable and
powerful analytical and simulation
results to refine the experimental
design for future prospective clinical
data. Our mathematical/computational models will lead to better
understanding of the biological
processes which play a fundamental
role in complex disease processes
the key common underlying mechanisms in disease, which will enable
clinical decision.
Keynote Speaker # 6
Technology Center led by Professor Stephen Chanock at NCI, NIH,
Bethesda. Kristensen has visited the
Berzelius Laboratory at Karolinska
to work on the functional characterization of polymorphic CYP2E1
together with the group of professor
Magnus Ingelman Sundberg. She
was also granted a fellowship to
study the aromatase (CYP19) in the
lab of Dr. N. Harada at Fujita Health
University, Nagoya, Japan.
Kristensen’s research interests are
related to how genetic variation af-
ing has great potential for both
fields.
Two examples will be presented to
illustrate how robotics and SoSE
relate. The first example elaborates
upon the SoS challenges of the Industry 4.0 movement, and how the
middleware platform called ‘ROS’
- Robot Operating System - controls
the interactions between the systems in a loosely standardized manner. The second example illustrates
how a band of music playing robots
(www.teamdare.nl) has emerged
from individually developed robots,
keeping in mind that for a band
to sound right a carefully thought
through joint performance is crucial. The right timing, dynamics,
tempo, and tuning has to be realized
to ensure the appreciation of the
audience.
Biography: Heico Sandee is managing director of Smart Robotics.
fects occurrence of somatic alterations, gene expression patterns and
genome wide copy number alterations in human breast and ovarian
tumors (http://www.ous-research.
no/kristensen/). This work has
lead to the communication of 112
scientific papers since 2002. She is
a recipient of several national and
international grants and awards,
member of scientific and administrative boards in Norway and
abroad and member of academic
evaluating committees in Norway,
Sweden, Denmark and Iceland.
Heico (1978) received his MSc degree in Electrical Engineering from
the Eindhoven University of Technology (TU/e), The Netherlands,
in 2002. In 2006 he obtained his
PhD degree in the Control Systems
group of the faculty of Electrical
Engineering, TU/e, on the subject of
Event-Driven Control, in the Boderc
project at the Embedded Systems
Institute. In 2005 he visited the
Mechanical Systems Control Laboratory at UC Berkeley, California,
USA, for which he received an NWO
grant. From December 2006, he
worked as a mechatronic system
developer at Océ Technologies.
From 2010 until 2013 he was program manager at the Robotics at the
Eindhoven University of Technology. From 2013 until 2015 he was
Technical Manager at Alten Netherlands. May 2015 he co-founded
Smart Robotics. Heico’s personal
interests are music, sports and robotics (www.teamdare.nl).
Current topics of research are in the
field of genomic variation in relation
to susceptibility, clinical presentation, treatment response and adverse side effects of treatment, gene
regulation and proximal phenotypes
(RNA expression and metabolic
profiles) in breast cancer.
15
Practical information
Wednesday afternoon, June 15, Timeslot 7
13:00
13:45
Theme
Classroom 2228/2230
Auditorium 2202 Hegstad
Keynote 6 - Heico Sandee from Smart Robotics (Room 2403 Oksen)
Coffee Break
Parallel Session A
Parallel Session B
Embedded Software and Formal Models Ocean Space: Maritime Engineering
Charles Dickerson
Kjell Ivar Øvergård and Salman Nazir
Generalized Hough Transform For Object
14:15 A Co-Design Approach for Embedded
Classification in the Maritime Domain
Control Software of Cyber-Physical
Systems
Pornrerk Rerkngamsanga, Murali Tummala,
Jan Broenink, Peter-Jan Vos, Zhou Lu, and James Scrofani, and John C. McEachen
Maarten M. Bezemer
Use of evidential reasoning for eliciting
14:40 Checking the Architectural Feasibility
Bayesian subjective probabilities in human
of Systems-of-Systems using Formal
reliability
Descriptions
Milena Guessi, Flavio Oquendo, and Elisa Khalifa Abujaafar, Zhuohua Qu, Zaili Yang, Jin
Wang, Salman Nazir, and Kjell Ivar Øvergård
Nakagawa
15:05
15:30
Models Composition in FORM-L for the
Study of Complex Socio-Cyber-Physical
Systems and Large Scale Systems of
Systems
Thuy Nguyen
Classroom 2222/2224
Classroom 2225/2227
Parallel Session C
Case Studies - I
Alex Gorod
Useful Deviations for Deviation
Management Information Systems
- From pulse methodology to a
generic description
Onur Kaya and Dag Bergsjö
Workshops/Tutorials
Joe Kasser
Handling Commercial, Operational and
Technical Uncertainty in the Early Stage of
Offshore
Jose Garcia Agis, Sigurd Solheim Pettersen,
Carl Fredrik Rehn and Ali Ebrahimi
Towards understanding the
dynamics of self-organising mining
industry supply networks: a case
study of the SA mining industry
Larissa Statsenko, Vernon Ireland,
and Alex Gorod
Singapore’s Smart Nation Program Enablers and Challenges
Eng Seng Chia
Tutorial:
A systemic
and systematic
methodology for
solving complex
problems
Photo: Norsk Bergverksmuseum
The Silver Collection consist of approx. 1500 specimens. The silver and mineral collection holds a high international standard, and is the biggest collection in the world of native silver.
Sunday / Monday excursion: The silver mines
Coffee Break
Wednesday late afternoon, June 15, Timeslot 8
Classroom 2228/2230
Theme Manufacturing and Business
Architectures and Enterprises
Tod Schuck
16:00 An Architecture for
Stewarding Enterprises
L. Keith McCaughin and Brian
White
Auditorium 2202 Hegstad
Control System Analysis, Design,
and Development
Cihan Dagli
Conceptual Reasoning in
the Development of Particle
Accelerator Control Systems
Thilo Friedrich
16:25 A Framework for Technology
Assessment from Different
Scientific Viewpoints:
Preliminary Report
Hao Liang, Charles E.
Dickerson, Donna Champion,
and David Battersby
16:50 An Integration Strategy for
Controls and Computing Systems
at a large Particle Accelerator
based Research Facility
Thilo Friedrich and Daniel Piso
Fernández
Classroom 2222/2224
Case Studies - II
Mo Mansouri
A Modular Framework for
Socio-CPS-Based Condition
Monitoring
Hans Fleischmann, Johannes
Kohl, and Jörg Franke
Are stakeholders in the
constituent systems SoS
aware? Reflecting on the
current status in multiple
domains
Gerrit Muller
Classroom 2221/2222
Panel: Cyber-Physical
Systems: Trans-Atlantic
Collaborations
Mo Jamshidi
Carys Siemieniuch
Kambiz Tehrani
Oliver Maurice
Simon Yang
Mo Jamshidi
Classroom 2225/2227
Tutorial
A systemic
and systematic
methodology for
solving complex
problems
Joe Kasser
Join a train ride that takes you 342 meters below the surface and 2,3 km into the
mountain. Inside the King’s mine there
is a guided tour through stopes, adits
and shafts. A mine elevator built in 1881
(“Fahrkunst”), is just one of many things
to see on this tour, which takes 1,5 hours.
The temperature is 6°C, so please dress
warm! The banquet hall was made in 1943
as a storage room for the National Archives
of Norway and 2,000 shelf meters of documents. 10 – 12 people had their daily work
inside the mine from July 1943 to June
Photo: Norsk Bergverksmuseum
1945. Today the room is used for events,
concerts, shows and company gettogethers.
Tuesday: Banquet at Smeltehytta
The Banquet takes place at Smeltehytta. Address: Hyttegata 3, Kongsberg.
SOFL-based Dependency
Graph Generation for
Scheduling
Zhuo Cheng
16
The main industry sponsor for the conference,
Digitread AS, will provide the opening speech for the
Banquet.
17
Photo: Norsk Bergverksmuseum
Krona conference centre, 2nd floor
18
Krona conference centre, 3rd floor
19