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1 Role of Smart Systems Integration in the Research and Innovation Strategy of the JTI ECSEL Güter Lugert Siemens Corporate Technology EPoSS e.V. Chairman of executive Committee © EPoSS 2014 SSI, 26 March 2014, Vienna

Role of Smart Systems Integration in the Research and

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Page 1: Role of Smart Systems Integration in the Research and

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Role of Smart Systems Integration in the Research and Innovation Strategy

of the JTI ECSEL

Güter Lugert Siemens Corporate Technology

EPoSS e.V. Chairman of executive Committee

© EPoSS 2014

SSI, 26 March 2014, Vienna

Page 2: Role of Smart Systems Integration in the Research and

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EPoSS in Brief ETP on SSI and Association European Technology Platform on Smart Systems Integration established: 6 July 2006 • an industry-driven initiative to give a voice to the European • Smart Systems Community • 78 organisations and 470 individual members

from 19 countries

to: strengthen the competitiveness of the European Smart Systems industry, esp. SMEs, by promoting R&D and Innovation define research and technology priorities, roadmaps, Strategic Research Agendas provide advice to public authorities mobilise public and private human, infrastructural, and financial resources participate in Public Private Partnerships with the Commission and member states provide support to its members

Transformation into a legal non-profit association: Constitutional meeting: 18/19 September 2013

EPoSS Launch with Commissioner Viviane Reding and the EPoSS Chairman Klaus Schymanietz

© EPoSS 2014

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Smart Systems Characteristics and Examples

Intraocular Pressure Measurement Device

Driver Assistance Systems

Hearing Aid

Object Recognition Device

Positioning System for Robots

Smart Systems… are able to describe a situation and diagnose it are predictive, able to decide or help to decide mutually address and identify each other enable the product to interact with the environment

They are as small as possible, networked & energy autonomous

© EPoSS 2014

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Smart systems and

subsystems Smart Systems Integration Bridging the gap from the component to the product

Smart Systems in the KET Context

© EPoSS 2014

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Smart Systems Development Driven by Applications

© EPoSS 2014

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Smart Systems Key Data of the Sector in Europe (EU27) Companies: 8,000 Employment: 827,000 R&D Staff: 66,000 R&D intensity of companies: 8% of turnover R&D volume 2011 (EU27): 9.6 B€ In Europe we build upon: High class public research structures Highly skilled people Value chains which can not be easily transferred to other world regions ____________________ Source of Figures: Prognos AG, Analyse zur ökonomischen Bedeutung der Mikrosystemtechnik, Studies about the Smart Systems economy in Baden Württemberg and Germany; European Competitiveness Report; EU Industrial Structure 2011; Extrapolations by VDI/VDE-IT suppported by figures of major industrial associations; EPoSS and IRISS inquiries

© EPoSS 2014

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Evolution of Smart Systems Generations

System functionalities determine advancements in “smartness” 1st Generation Smart Systems integrate sensing and/or actuation as well as signal processing to enable actions 2nd Generation Smart Systems are built on multifunctional perception and are predictive and adaptive 3rd Generation Smart Systems perform human-like perception and action and generate energy

Continuous Glucose Monitoring (Medtronic)

Gyro Mouse (Gyration)

Fully Automated Driving (Google)

© EPoSS 2014

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Applications-specific Developments Examples from the Automotive Sector

• Smart Wheel, aims to integrate braking as well as suspension functions and active torque vectoring, thus offering additional features in vehicle stability (Multi-Parameter Sensing, Motion Control, Power Control, Thermal Management, Closed Loop Control)

• Highway Pilot, enabling highly automated driving without the driver in the loop, including autonomous overtaking, but allowing the driver to intervene (Environment Recognition, Data Fusion, Positioning/Mapping, Monitoring of Body Parameters)

© EPoSS 2014

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The maker of the world's first bionic eye FDA approved

February 14, 2013 FDA approved the Argus II retinal prosthesis. European regulators had previously approved the device in 2011. The company has raised about 140 M€ starting in 1991 Two hours to implant, requires only a single surgeon to perform the procedure Medicare has announced that it will reimburse the 100,000 € per procedure Market: 10B€

Applications-specific Developments Examples from the Health Sector

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BIONIC HEART

1967 : 1st transplant 1969 : 1st artificial heart 3 days 2012-2013: 69 days Estimated Market: 15 B€

Applications-specific Developments Examples from the Health Sector

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Applications-specific Developments Examples from the Health Sector

• Smart operating room, incl. for instance

Assistance • Functionalised

surgery tools (real time analysis, image-guided)

• Interactive access to information (augmented reality, knowledge, monitoring data)

Minimal invasion • Smart robots for

precision / remote surgery

• Advanced tools combining imaging/diagnostics and therapy (endoscope, smart pills, …)

... use of current & future ICT-products to improve health conditions, e.g., smart watches can sense pulse, smart phones with front camera can monitor eye movements, touch screens can give feedback on neurological disturbances, …

© EPoSS 2014

Implants •Predictive &

adaptive implants •Adaptive organ

replacement during surgery

•Optimised bioreactors

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Rather than replacing workers, Baxter allows for the in-house automation of tasks that are frequently out-sourced to low-cost regions and evolves the role of line operators to include the training

and super-vision of robots

Applications-specific Developments Examples from the Manufacturing & Service Sector

Human – Robot cooperation in manufacturing/assembly

Teleoperation in harsh environments (deep see, mining, …)

Remote servicing

rethink robotics´s BAXTER´s robots

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R&I on Smart Systems Integration EPoSS Achievements in FP7

EC funding for SSI-specific projects in the European Green Cars PPP and the Internet of Things objectives in ICT Work Programmes (ICT Calls 1, 4, 5, 6, 7, 8, 10 and dedicated Green Cars calls) ► 481 M€

EC funding for SSI core objectives in ICT Work Programmes 2007-2008, 2009-2010, 2011-2012 and 2013 (ICT Calls 2, 5, 7, 8, 10): ► 312 M€

EC funding for additional objectives with a focus on SSI technologies and solutions in ICT Work Programmes (cognitive systems & robotics, electronics integration, electronic-based miniaturised systems, OLAE systems, photonic systems, personal health systems, ICT and ageing, Smart Factories, manufacturing solutions for new ICT products) ► 1,895 M€

Total EC Funding for Smart Systems Integration in FP7: 2,688 M€ © EPoSS 2014

312 M€

+ 481 M€

+ 1.895 M€

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Smart & Efficient Energy • for alternative energy conversion, distribution, use • for “more electric vehicles”

Mobility Automotive & Transport • from assisted via partially automated to autonomous systems • Systematically networked smart, intermodal transport solutions • real-time distributed situational awareness and decision making

Smart and More Secure Cities • system concept: Principle and test beds HW in the Loop (HIL) • Interfaces, communication, functional safety and security concepts

Production & Automation Technologies

• Cooperative man-machine assembly for safety & quality • Addaptive manufacturing for feed in variations

Nanoelectronics Embedded Systems / CPS

• seamless model based development processes,

• integrated physical-logical simulation,

• Verification and r • eliability of autonomous CPS, Re-use of logical components,

Smart Systems • Integration Methods for Smart Systems in harsh and complex environments

•Sensor-/actuator based systems for autonomous operations

•Seamless implementation in virtual and physical environments

Health & Ageing Society • system concept and pilot demonstration • monitoring in distributed systems

Safety & Security (cross domain)

• Safety & Security functional robutness by Design • Incremental certification and pilots/demonstration

Design Technologies (cross domain)

• managing complexity and diversity in systems

R&I on Smart Systems Integration MASRIA 2015 – ARTEMIS-IA proposal for Chapters

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Year Technologies Functionalities Applications

2014 Building blocks for the integration and interaction of smart systems with their environment: sensors and sensor systems, (power) electronics, actuators, wireless communication systems, as well as materials and methods for physical integration ensuring reliability and robustness

Gen 1/2 sensing and actuation, communication and networking

Power train control for EVs, environment recognition for robots, body area networks for health monitoring

2015 Components and integration concepts for smart energy and thermal management: control, storage, transfer, generation, harvesting of energy, and supporting communication solutions

Gen 1/2 energy manage-ment and scavenging, communication and networking

Battery management, smart grids, renewable energy sources

2016 Solutions and methods for automation and operation of smart systems in complex environments: sensor fusion, cognitive cooperation, robust and reliable materials and components, physics of failure

Gen 2 and partly 3 signal and cognitive processing, Gen 1/2 interfaces

Automated vehicles and manufacturing processes, environment recognition

EPoSS Priority Topics in ECSEL Draft Timeline of Implementation (1)

© EPoSS 2014

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Year Technologies Functionalities Applications

2017 Integration methods and interfaces for smart systems operating under harsh and complex conditions: compatibility with organic, chemical, biological, neural systems

Gen 2/3 interfaces Neuro plug, micro needles, artificial organs, smart fluids, environmental monitoring

2018 Advanced smart systems for autonomous operation based on building blocks linked to knowledge base

Gen 3 sensing and actuation, communication and networking, Gen 2 signal and cognitive pro-cessing, knowledge base

Autonomous transportation systems, artificial organs, robots

2019 Smart systems for complete user interaction matching requirements of augmented reality, data fusion

All of the above as well as Gen 3 interfaces

Prosthetics, implants, artificial eyes, human-machine interfaces

2020 Breakthroughs in the reduction of impact of smart systems on materials use, waste production, energy consumption, and cost; self-healing capabilities

Gen 3 of all functionalities Visionary products in transportation, health etc.

EPoSS Priority Topics in ECSEL Draft Timeline of Implementation (2)

© EPoSS 2014

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Goals for cooperation • Propose projects for joint R&I in ECSEL

accross the ETP domains

• …

Thank you for listening

© EPoSS 2014

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EPoSS in the JTI ECSEL Synergies

Application

ENIAC Silicon..

ARTEMIS Embedded..

EPoSS Integration..

ECSEL

Environment & People

Technology Basis

Tech

nolog

y Bas

is Technology Basis

…opportunities to set up common strategic projects of the three research communities © EPoSS 2014

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Aalto University AIT Austrian Institute of Technology GmbH Asociación IK4 Research Alliance Associazione Trento RISE AVL List GmbH Centro Ricerche Fiat S.C.p.A. CiS Forschungsinstitut für Mikrosensorik und Photovoltaik GmbH CNM-CSIC Continental AG CTAG CTR Carinthian Tech Research AG Fondazione Politecnico di Milano Fraunhofer EMFT, ENAS, IML, IPMS, IZM, LBF, ISF Heriot-Watt University Hitachi Europe HSG-IMIT Ideas & Motion S.r.L.

IMEC IMT Bucharest Infineon Technologies AG LAAS-CNRS Laboratory of excellence ACTION LEITAT Technological Center Leti CEA Murata Electronics Oy NXP Semiconductors Germany GmbH Philips Robert Bosch GmbH Siemens AG Sorin Starlab STMicroelectronics International N.V. Swerea IVF AB The University of Sheffield VTT Technical Research Centre of Finland

Smart Systems Association EPoSS e.V. Current Members - March 2014 (47)

• Provisional acknowledgement of non-profit status • Executive Committee established (13.12.2014) • Board fully established (03.02.2014) • Growth of membership – new members approved by the General Assembly