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Microsystems in the ICT Programme

Microsystems in the ICT Programme. Objective 3.9 : Microsystems and Smart Miniaturised Systems. Griet Van Caenegem European Commission Directorate-General Information Society and Media. Microsystems and C° - Some simplified Vocabulary…. Micromachines. Microsystems

hermione-christensen
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Microsystems in the ICT Programme

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  1. Microsystems in the ICT Programme Objective 3.9 : Microsystems and Smart Miniaturised Systems Griet Van Caenegem European Commission Directorate-General Information Society and Media NCP meeting – Brussels- May 12 – Griet van Caenegem

  2. Microsystems and C° - Some simplified Vocabulary… Micromachines Microsystems Smart miniaturised systems Microsystems MEMs, MOEMs NEMs, Miniaturised systems Smart systems Nanosystems Microrobots NCP meeting – Brussels- May 12 – Griet van Caenegem

  3. Functions: Sensing, storing, processing, actuation, communication Microsystems: At least 2 Technologies, 2 Functions, and “Miniaturised”! MICROSYSTEMS = Integration of technologies and functions Technologies: Nanoelectronics Biology Microfluidics Materials Microsystems Chemistry Photonics Micromechanics NCP meeting – Brussels- May 12 – Griet van Caenegem

  4. Microsystems get smart Smart systems Able to: • Describe a situation, diagnose, and/or • Predict, decide, help to decide, and/or • Interact with the environment • Smart (Miniaturised) System Actuate Actuate Close-loop Process Sense Interact Store Communicate NCP meeting – Brussels- May 12 – Griet van Caenegem

  5. Main Challenges for Microsystems and smart miniaturised systems 1. Multiple Research fields to combineMechanics, electronics, fluidics, biology, magnetism, photonics 2. Multiple Materials need to work side by sideSemiconductor, ceramic, glass, organic 3. Multiple Functions to integrate Sensing, processing, logic, memory, communication 4. Multiple Integration technological options Heterogeneous integrationMonolithic, hybrid, multichip ETP EPoSS : http://www.smart-systems-integration.org/public NCP meeting – Brussels- May 12 – Griet van Caenegem

  6. Convergence and Integration – Some examples GSM phone Smart Fabrics (PROETEX) Lab-on-Chip (OPTOLABCARD) Biology RF Microfluidics Nanoelectronics Photonics Micromechanics Chemistry Microrobotic surgery (ARAKNES) Neural Probe arrays (NEUROPROBES) Photonic biosensor (NEMOSLAB) NCP meeting – Brussels- May 12 – Griet van Caenegem

  7. ICT Objective ICT-2009.3.9: “Microsystems and smart miniaturised systems” (a) Heterogeneous Integration (b) Autonomous energy efficient smart systems (c) Application-specific Microsystems and Smart Miniaturised Systems Transport, Safety and Security Environment Food/Beverage Smart Fabrics, Interactive Textile Biomedical Telecommunications (d) Coordination and Support actions NCP meeting – Brussels- May 12 – Griet van Caenegem

  8. (a) Heterogeneous Integration Multiple core technologies and materials, integrated and interfaced: Emphasis: - Innovative concepts of industrial relevance - Address challenges that limit the industrial take-up Focus: 1. Heterogeneous technologies for more intelligence in microsystems: - multi-sensing, processing, wireless communication, actuation 2. Address the “value chain” for more efficient manufacturing: Materials, modeling, design, processes, packaging, characterisation, testing 3. Disruptive approaches for nanosensor-based microsystems NCP meeting – Brussels- May 12 – Griet van Caenegem

  9. (b) Autonomous energy efficient smart systems Objective: Long-lasting autonomous operation Challenges: 1. Energy: Scavenging, storage and transmission Power generation, accumulation and consumption 2. Communication: Smart transceivers for wireless communication of sensor-based systems: (reconfigurable, low power, adaptive, miniature…) NCP meeting – Brussels- May 12 – Griet van Caenegem

  10. Miniaturisation for multi-functional networked microsystems • Smart RFID • Ultra-low power transceivers • Reconfigurable antenna Telecommunications (c) Application-specific Microsystems (1/2) • Lab-on-chip platforms, from R&D to validation in • Drug discovery, diagnosis/therapy • emphasis: integration of sample preparation, flexibility to multiple-type assays • Microinstruments for cell manipulation and micro-injection • Microsystems interacting with the human body • - miniaturised active implants • - bio-robots and non-invasive microsystems • (monitoring, diagnosis and therapy) Biomedical Note: Biosensors and microfluidic chips/components “as such” out of scope NCP meeting – Brussels- May 12 – Griet van Caenegem

  11. 1. Transport: Safety critical microsystems: • Emphasis: smart systems for the full electrical vehicle • 2. Safety and Security: Sensors and actuators • Emphasis: networking capabilities, operation in harsh environment Transport, Safety and Security • Multi-functional textiles and fabrics: • Seamless integration of functions: • sensing, actuating, communication, processing, power sourcing • - Integration of fibre-level components into textiles • - Stretchable and wearable electronics embedded in textiles • - Fully integrated Smart Fabric and Interactive Textile (SFIT) Smart Fabrics, Interactive Textile (c) Application-specific Microsystems (2/2) • Multi-sensing microsystems for: • Environment (including water treatment) • Food and beverages quality and safety • Emphasis: reliability and cost Environement Food/Beverage NCP meeting – Brussels- May 12 – Griet van Caenegem

  12. (d) Coordination and Support actions Non-R&D projects ! • Techno-economic analysis • Dissemination and promotion actions, public awareness • Identification of international cooperation opportunities • Coordination between Technology providers and Users • (for in-vitro diagnostics and food/beverage quality) NCP meeting – Brussels- May 12 – Griet van Caenegem

  13. Budget and “Instruments” “Instrument” Budget IP or STREP (a) Heterogeneous Integration (b) Autonomous energy efficient smart systems STREP 77 M€ (c) Application-specific Microsystems Transport, Safety and Security IP or STREP Telecommunications Environement Food/Beverage Smart Fabrics, Interactive Textile Biomedical 3 M€ (d) Coordination and Support actions CSA NCP meeting – Brussels- May 12 – Griet van Caenegem

  14. General Information and Contact Pre-proposal service: INFSO-MICROSYSTEMS@ec.europa.eu http://cordis.europa.eu/fp7/ict/micro-nanosystems • Complete ICT Work programme 2009-2010 • Objective 3.9 “Microsystems and Smart Miniaturised Systems” • Pre-proposals check form • Latest information on this objective and call • More information on EU-funded projects in Microsystems NCP meeting – Brussels- May 12 – Griet van Caenegem

  15. Infoday on 3.9 in Brussels, June 23, 09 More information on http://cordis.europa.eu/fp7/ict/micro-nanosystems griet.van-caenegem@ec.europa.eu Thank you very much ! NCP meeting – Brussels- May 12 – Griet van Caenegem

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