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ARTEMIS SRA Addendum. ARTEMIS-IA Pre-Brokerage event Brussels February 4 th /5 th , 2014 Laila Gide Thales. ARTEMIS - Helsinki 03.10.2013. ARTEMIS Industry Association The association for R&D actors in embedded systems. Page 1. The Way Forward.

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  1. ARTEMIS SRA Addendum ARTEMIS-IA Pre-Brokerage event Brussels February 4th/5th , 2014 Laila Gide Thales ARTEMIS - Helsinki 03.10.2013 ARTEMIS Industry Association The association for R&D actors in embedded systems Page 1

  2. The WayForward From ARTEMIS to ECSEL

  3. From ARTEMIS to ECSEL • The Private Members propose • a MASRIA (Multi Annual Strategic Research and Innovation Agenda, elaborated by the PMB). • a RIAP(Research and Innovation Activities Plan, elaborated by the PMB), including a Workprogramme • .

  4. 2014 ECSEL MASRIA 2014 MultiAnnual Strategic Research and Innovation Agenda for the ECSEL Joint Undertaking Elaborated by the Private Members Board of the ECSEL Joint Undertaking representing: the AENEAS Industry Association & the ARTEMIS Industry Association & the EPoSS Industry Association DRAFT

  5. 2014 ECSEL MASRIA • This 2014 MASRIA consists of 4 documents: • Umbrella document • Introduction • Vision, Mission and Strategy of the Research and Innovation of the ICT Components and Systems Industry • Conclusion • References • 3 Annexes • Annex 1: Nanoelectronics MASRIA within the scope of ECSEL on behalf of AENEAS • Annex 2: Embedded/Cyberphysical Systems MASRIA within the scope of ECSEL, on behalf of ARTEMIS-IA • Annex 3: Smart Systems MASRIA within the scope of ECSEL, on behalf of EPoSS ARTEMIS SRA Addendum

  6. Built through a top-guidance (strategy) from the ARTEMIS SRA WG a bottom-up constributions from ARTEMIS CoIE : mainlyEICOSE/SafeTrans - ProcessIT.EU, ES4IB) Experts from the ARTEMIS-IA members Built to provide inputs to H2020, JU, national and Eureka Built with the Ambition and Targets To exploit the ubiquity of the Embedded Systems/Cyber-Physical Systems To exploit the connectivity of networked ES/CPS: the neural system of society To address the challenge of Time to Market/time on Market To master the complexity while reducing the cost To address the challenge of energy and power consumption. ARTEMIS SRA Addendum Page 3

  7. The ARTEMIS Way in the SRA 2006 To overcome the fragmentation, while mastering the complexity, for yielding multi-domain reusable results ARTEMIS SRA • The Strategic Research Agenda Matrix Approach • and the ARTEMIS Culture Page 4

  8. The ARTEMIS WAY in the Addendum Technological challenges Opportunities Industrial Priorities Innovative Cyber-Physical Systems • Overcoming fragmentation by yielding multi-domain, reusable components and systems Societal Challenges

  9. SRA Addendum: Innovation StrategyARTEMIS differentiators • An ‘Industry driven’ initiative, • A unique example of tri-partite cooperation • Focus on both business competitiveness and technical excellence, • A descriptive ‘Top-down’ approach based on a Strategic Agenda, supported by a bottom-up expression of needs through Centres of Innovation Excellence, • Focus on large impact and market-oriented projects (such as the AIPPs); • Large footprint projects with support from smaller focussed projects, to ensure balance between different research’s actors (large, mid and small industry as well as RTOs and Academic) to drive innovation, • Actively supporting innovation eco-systems approach, particularly attractive to SMEs: standards, tools, science-based engineering processes, education, .. and build on ARTEMIS assets (repository to share results), • Openness and complementarities with EU framework programmes and EUREKA programme ITEA., • Seek closer cooperation with the KIC ICT LABs., • Seek closer cooperation with other ETPs and PPPs, mainly: FoF PPP; Robotic PPP, ERTRAC ETP,...

  10. ARTEMIS Contribution to the Societal challenges

  11. Technological Opportunities • SRA Addendum : Matrix 2.0 Approach Virtual World Internet-of-Things Computing & Multi-Core Safety-Critical secure Systems System-of-Systems autonomous, adaptive and predictive control Big Data Cloud Services Application Contexts • Environmental & Agricultural Inf. • Healthcare • Manufacturing • Transport & Mobility • Nomadic Devices • Private Spaces • Smart Cities • Security • Energy (generation, • distribution, smart use) Research domains Reference Designs & Architectures Seamless Connectivity & Interoperability System Design Methods & Tools

  12. The ARTEMIS WAY in the AddendumThe Global Picture Technological challenges Opportunities Innovative Cyber-Physical Systems Industrial Priorities Societal Challenges

  13. ARTEMIS research directionsOur Roadmap

  14. ARTEMIS research directions and roadmap Computing D- Computing Architectures and Energy Management AutonomousControl C- Autonomous Adaptive and predictive control and operation of CPS System Design B- System Design, Modelling and Virtual Engineering for CPS ARCHITECTURE A- Architectures Principles and Models for Safe and Secure CPS Phase 3 2018-2020 Phase 1 2014-2015 Phase 2 2016-1017

  15. Cross-cutting Application Contexts with the Roadmap Efficient and safeMobility Wellbeing & health Computing Sustainable Production Smart communities D- Computing Architectures and Energy Management AutonomousControl C- Autonomous Adaptive and predictive control and operation of CPS B- System Design, Modeling and Virtual Engineering for CPS System Design ARCHITECTURE A- Architectures Principles and Models for Safe and Secure CPS

  16. ARTEMIS research directionsOur Roadmap: 4-4-3 4 Application Contexts driving 4 Research Clusters along 3 phases • 4 Application Contexts • Efficient and safe mobility: automotive, aerospace, railway, space • Wellbeing and Health: home care, hospital care,… • Sustainable Production: process automation, power plants, mining, food production • Smart Communities: smart and secure cities, efficient buildings, smart spaces, autonomous and robotic systems, cloud computing • 4 Research Clusters • Architectures Principles and models for Safe and secure Cyber Physical Systems • System Design, modelling and virtual engineering for Cyber Physical Systems • Autonomous adaptive and cooperative of Cyber-Physical Systems • Computing Platforms and Energy Management for Cyber Physical Systems • 3 phases • Phase 1: short term 2014-2015 • Phase 2: medium term 2016-2017 • Phase 3: longer term 2018-2020

  17. ARTEMIS research directionsA closer look

  18. Architectures Principles and models for Safe and secure Cyber Physical Systems 2014-2015 2016-2017 2018-2020 … Modular /composable reference architectures/ protocols architecture Standards Global architectures Principles Evolution of Certification processes Monitoring and diagnosis /application independent software Programming Paradigms/ frameworks Adding cognitive users models Safe and secure opreation in non-deterministic environment Certification requirements for disruptive architectures Principles Related certification requirements Extension to novel application contexts

  19. System Design, modelling and virtual engineering for Cyber Physical Systems 2014-2015 2016-2017 2018-2020 … Targeting fully autonomous CPS Targeting Semi-autonomous CPS Modelling complex interactions with human Targetting CPS for assisting Users Adding virtual engineering environment modelling Engineering for fully self-reconfiguring CPS Design space exploration Extend to cost reduction Verification/ validation methodology and tools for complex systems and environment Novel format verification techniques Cross-sectoral usability Life cycle management Extend to QoS Stochastic approaches

  20. Autonomous adaptive and cooperative Cyber-Physical Systems 2014-2015 2016-2017 2018-2020 … -autonomous CPS Adding adaptation and run-time optimisation Adding learning capabilities Core enabling functionalities For efficient use of ressources Adding Distributed decision making Reliable and trustable decision making Optimising global application performance Introducing Intuitive and enhanced accessibility Planning for safety related autonomous CPS HMI/WMI HMI/WMI

  21. Computing Platforms and Energy Management for Cyber Physical Systems 2014-2015 2016-2017 2018-2020 … Extending to dynamic adaptation Adding environment modelling in the loop Low power computing for global system view Extending to heterogeneous Multi/many core computing reseources Predictive and adaptive computation Energy management Complexity management Rule based system behaviour construction and programming System level programming Reliability and security Portability virtualisation Mixed critical systems Scalable and modular approaches for affordable qualification / certification Global cooperative and distributed system debugging and validation

  22. ARTEMIS research directionsA closer look • Annex 1 : • Detailed list of Priority Candidates topics • In Annex 1 is our “reservoir”

  23. 2014 ECSEL RIAP • The basic set-Up of the 2014 ECSEL Research and Innovation Activities Plan (RIAP) • Introduction • Relation principles of the RIAP to the MASRIA • Projects can address one or more ANNEXes • Recommendations for calls • 3 Annexes • ANNEX 1 (nano projects) on behalf of AENEAS • ANNEX 2 (embedded projects) on behalf of ARTEMIS-IA • ANNEX 3 (smart projects) on behalf of EPoSS • Structure of the ANNEXes • Description of focus areas plus budget foreseen • Relations to the respective ANNEX of the MASRIA • Recommended elements of scoring criteria for the evaluation by independent experts ES/CPS Part

  24. 2014 ECSEL RIAP ES/CPS Part • Toprepare the ES/CPS Part : • A template to collect yourEoI (input) for the RIAP • bring your ideas for projects into the RIAP • Referto the 4-4-3 • (4 application areas, 4 roadmap clusters and 3 phases) • Now Focus on : phase 1 (Table on page 65 of SRA addendum) • Describe : • Objectives • Research technical topics • Expectedimpact • Also indicate links to EPoSS and AENEAS (MASRIA annexes) to enable topics for “umbrella” projects

  25. Example:

  26. Your input is essential to the RIAP!

  27. Thank you for your attention! ARTEMIS - Helsinki 03.10.2013 ARTEMIS Industry Association Page 12

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