No specimen left behind: Collections digitisation at the NHM, London*
Similaire à Apresentação Gerard Poirier - System@atic | OIS2010 | Case de open innovation entre grandes e pequenas empresas – Pólo de Inovação de Paris
Similaire à Apresentação Gerard Poirier - System@atic | OIS2010 | Case de open innovation entre grandes e pequenas empresas – Pólo de Inovação de Paris (20)
2. 1st mission: Generate R&D Projects
R&T Project
Project
R2 Project
building
Structured Links
R1 Project
Roadmap
Partners :
LG, SMEs,
Institutes,
Networking Research Centers
Labs, Universities
Brainstorming
Employment and economic activities development
must be the first goals of the R&D projects
OCDS road mapOCDS road map 2
3. 2nd Mission: Boosting the Paris Region
aerospace activities
Have a Paris Region activity well-known and recognized for its
competencies
Identify all the actors on the territory, promote their competencies and
generate synergy between all those actors
Be on the main conferences to represent the Paris Region sector
Support SME in their economical development
Towards sustainable development
Towards competitive intelligence approach
Towards international activities
Stimulate the Paris Region aerospace activities
Help the SME to be more integrated in all the supply chain processes and
create B to B days dedicated to relationship between major companies and
SME
Encourage synergies between SME in order to offer to the major companies
one single contact instead of several suppliers
OCDS road mapOCDS road map 3
4. How to boost SMEs development:
• Innovation & Development
strategy
• Sustainable development
• Business Intelligence
• Wireless
• Mobility
• Employment « center »
• Adequacy job Training
B2B meetings • Training of SMEs
managers
SMEs / Large companies
Access to venture capital and
potential shareholders / • Export assistance
investors • pooling of international
distribution networks
OCDS road mapOCDS road map 4
5. The Digital Revolution:
a challenge involving complexity
246 projects launched 1120 M€ R&D costs
433 M€ public funding
Open Defence Telecoms Automotive
& Aeronautics
Source & Security
Transport Other
(Energy,
21 49 52 33 services…)
Systems Design and Development Tools
91
Education enhancement
OCDS road mapOCDS road map 5
6. Key Players in Working Groups
Automotive & Transport Working Group:
ALSTOM TRANSPORT, ARMINES, CEA, CNRS, CONTINENTAL, DELPHI, FREESCALE, GEENSYS, INRETS, INRIA, INTEMPORA, RENAULT,
VALEO, VISTEON
Systems Design and Development Tools Working Group:
EADS ASTRIUM, CEA, C-S, DASSAULT AVIATION, DISTENE, ECP, EDF, ESTEREL TECHNOLOGIES, FLOWMASTER, INRIA, SAMTECH,
SPRING TECHNOLOGIES, THALES, UTC
Security & Defence Working Group:
ALCATEL-LUCENT, BULL, CEA, EADS, GEMALTO, HGH Systèmes Infrarouges, INRIA, MARTEC, ORANGE, SAGEM DEFENSE SECURITE,
TELECOM & Management SudParis, THALES, TRUSTED LOGIC
Telecoms Working Group:
ALCATEL-LUCENT, CITY PASSENGER, CNRS / SUPELEC / LSS, EGIDE, FRANCE TELECOM, Université Paris-Sud 11 / IEF, INRIA FUTURS,
MOTOROLA, TELECOM & Management SudParis, THALES
Free & Open Source Sofware Working Group:
CAP GEMINI, C-S, INRIA, MANDRIVA, NUXEO, Université Pierre et Marie Curie / LIP6, UNIVERSITE PARIS 7, BULL
OCDS road mapOCDS road map 6
7. Systems Design and Development Tools
Working Group
AAP Projects Costs Public
252 partners Nb Funding
129 SMEs FUI 33 300 M€ 112 M€
71 Large Companies
ANR 41 97 M€ 36 M€
52 Public Research Labs
FEDER 11 13 M€ 7 M€
91 R&D projects
ITEA2 1 5 M€ 2 M€
420 M€ Investments
OSEO 2 2 M€ 1M€
159 M€ Public Fundings
S. Gaming 1 2 M€ 1M€
Web 2.0 2 1 M€ 0,6 M€
OCDS road mapOCDS road map 7
9. Results of Systems Design and Development
Tools Working Group
Modeling Systems Software
HPC
simulation engineering
Digital Factory Software Factory Open software offer in
HPC
Tools for embedded
systems
Massive Parallel
Multi-scale and physical
Computing
modelisation,
multidisciplinary optimisation Super-Computers
OCDS road mapOCDS road map 9
10. Master the development of future generations
of systems
Goal:
Systems
Development Axis 3 Face up to challenges
linked to « data deluge »
"Data analytics" (processing, extractions,
analysis)
HPC - High performance
computing
Development Axis 1 Development Axis 2
Modelisation / Software
Systems simulation engineering
Goal : Goal :
Ingeneering
Champions Champions of
simulation Systems engineering
for to satisfy
multidisciplinary customer needs
optimisation at lower cost
Global Approach: Advanced Technologies
OCDS road mapOCDS road map 10
11. Decision Collaborative Environment :
CSDL project - Partners
Leader : Dassault-Aviation
Large Companies
Dassault-Aviation, EADS, MBDA, Bull, Alcatel-Lucent, EDF, Thalès, Renault,
Dassault Systems
ME
CS, ANSYS, ESI Group
SME
Distène, EnginSoft, Eurodécision, Oxalya, Samtech, HPC-Project, LMS
Imagine
Research labs
Digiteo/Scilab, ESIL, INRIA, ECP, ENS Cachan, ONERA, ARMINES, SupElec
OCDS road mapOCDS road map 11
12. Decision in the design loop
Evaluate the impact of the requirements
requirements
Design
decision
space
Synthesis to support decision making
• Synthesis of important parameters Systematic and automatic exploration
- What are the limits and where they are. • Understand the design space
- Impact of component performances on global performances - What are the important parameters ?
- How the requirements interact with each others?
• Propose trade offs - Where are the most promising solutions ?
- Between requirements
- On design parameters • Generate models dedicated to decision making
- Trade offs
- Evaluate risks
• Manage risks
- Quantitative evaluation
OCDS road mapOCDS road map 12
14. International Cooperation
Georgia Tech University , Pr Dimitri Mavris
Federal University of Rio de Janeiro, Pr Jose Herskovits Norman (OptimizE
- Engineering Optimization Lab)
Triestre University, Pr Carlo Poloni (ModeFrontier) (Esteco, EnginSoft)
Ecole Polytechnique Fédérale de Lausanne, Pr Anton Ivanov, Pr
Pénélope Leyland
Tsinghua University, Pr Jean-Claude Paul (INRIA/LLAMA)
University of Texas at Austin: Institute for Computational Engineering &
Sciences (Prof. TJR Hughes) & TACC (J. Boisseau – Directeur TACC)
Stanford University: Institute for Computational and Mathematical
Engineering – Department of Aeronautics & Astronautics ( Professeur C.
Farhat)
Directeur US Army High Performance Computing Research Center
OCDS road mapOCDS road map 14
15. Dassault Aviation design requirements
Intensive HPC computation required for future products
design
This use has to be transparent for the users
It is necessary to anticipate what would be future HPC needs
Global approach will be multi level and multi disciplinary
Huge volume of generated data results require efficient
analysis tools
OCDS road mapOCDS road map 15
16. More and more constraints
Energy Mastering and Downsizing
Sustainable product life cycle development (eco-design,
carbon footprint) ,
Fault tolerance ,
Data integrity, data/information volume
Certification
OCDS road mapOCDS road map 16
17. Main axes of prospective vision :
Development of products and services will be based upon a
number of technologies organized in the most standardized
architecture as possible to host specific tools and services
necessary to the differentiation of a given company and to
enable synergies
This development will be done through intensive use of
simulation whose mastering will allow to reduce significantly
and intelligently physical developments and trials in order to
validate prior to effective production
Generated « data deluge » demand processing, saving and
integrity of data (« instrumentation of the world »,
multiplication of sensors)
Generalization in the re-use of parts, systems, software and
services, demand a configuration which is both open, rigorous
and user-friendly
Securitization will concentrate on data protection and will
become increasingly differentiating
OCDS road mapOCDS road map 17
18. Research & Technology Institute:
Key Systems engineering LABs
OCDS road mapOCDS road map 18
19. Cooperative work on education enhancement :
Key Systems Skills
Project Management
System Approach
Personal Skills Technical and
Methodological bases
Ability to innovate
OCDS road mapOCDS road map 19
20. European and international partnerships
EICOSE : ARTEMIS innovation cluster
European Institute for Complex Safety Critical Systems Engineering
Partnerships with the following ICT clusters:
Elgazala
(Tunisia)
Netherlands Germany
Cooperation with :
Canada UK
(Québec)
Connected with Boston (MIT) and Beijing (Tsinghua University)
OCDS road mapOCDS road map 20
21. SYSTEM@TIC Global « hubs »
Boston
MIT ILP Paris
& Hubtech21
Beijing
Tunisie Partnership Office
MOU with El Ghazala
Joint lab on high performance
computing (HPC) with CEA, GENCI,
and Versailles Saint-Quentin-en-
Yvelines University (UVSQ)
OCDS road mapOCDS road map 21