Microsystems in FP7 ICT Programme
Transkrypt
Microsystems in FP7 ICT Programme
Microsystems in FP7 ICT Programme Information Event Warsaw, 8 March 2007 Francisco J. Ibáñez Microsystems European Commission 1 Micro/Nanosystems Micro/nanosystems are miniaturised systems able to sense, diagnose, describe and qualify a given situation; suggest or implement appropriate actions; interact with the user, the environment and other smart systems. 2 Micro/Nanosystems Features Interdisciplinarity Mechanics, electronics, fluidics, biology, magnetism, optics Convergence Micro/nano, ICT, bio Heterogeneity Semiconductor, ceramic, glass, organic Multifunctionality Sensing, processing, logic, memory, comm, energy, Integration Monolithic, hybrid, multichip, large area 3 Microsystems in FP6: Thematic areas covered • • • • • • • Micro/Nano-bio ICT. Biosensors, lab-on-chip, DNA & protein analysis chips, food safety & quality monitoring, implants, drug delivery, medical imaging Sensor-based systems and Storage. Integrated sensor systems, MEMS, handling of nano-objects, mass storage Organic/Large area electronics and Displays. Organic electronics, flexible electronic systems, flexible displays, large-area applications Systems for Ambient Intelligence (AmI). Mobile phone based platforms, networked multisensors system for elderly people, smart textiles, biosensing textiles Manufacturing and Process integration. Microsystems manufacturing technologies from design to packaging testing and reliability Smart fabrics and interactive textile. Integration of advanced fibres and materials at the fibre core. E-textiles Support and coordination actions. Networking, roadmaps 4 Projects per thematic area (FP6) 24 projects (6 IPs) € 101 mn 10+4 projects (2+1 IPs, 2 NoEs) € 55 mn 11 projects (4 IPs) € 54 mn 5 projects (3 IPs, 1 NoE) € 35 mn 8 projects (4 IPs) € 47 mn 10 projects (3 IPs, 1 NoE) € 31 mn In total € 301 mn 11 projects € 6 mn 5 Challenge 3: Components, Systems, Engineering Workprogramme Objectives Call 1 Call 2 – IST-2007.3.1: Next generation nanoelectronics components and electronics integration – IST-2007.3.2: Organic and large area electronics and display systems – IST-2007.3.3: Embedded systems design – IST-2007.3.4: Computing systems – IST-2007.3.5: Photonic components and subsystems – IST-2007.3.6: Micro/Nanosystems – IST-2007.3.7: Networked embedded and control systems 6 IST-2007.3.2: Organic & Large-Area Electronics & Display Systems a) Organic & large-area electronics Lab on foil system Courtesy of Fraunhofer IZM RF-ID tag Courtesy of Philips Large area processing Courtesy of Fraunhofer IZM b) Visualisation & display systems Call 1 63 M€(*) 57 M€ CP (min 14 M€ IPs and 22 M€ STREPs) 3 M€ NoE 3 M€ CSA (*) Total amounts to be confirmed after a new financing decision for the 2008 budget 7 IST-2007.3.2 (a): Organic & Large-Area Electronics Expected Outcome Large area technologies for new manufacturing paradigms enabling system in foil integration and low costs applications Technology areas • Additive / printable processes & corresponding equipment & materials • Flexible interconnects and device encapsulation • device architecture and characterisation • Device modelling and circuit design Enabling Functionalities • logic, memory, RF • Sensing, Photovoltaic • Organic Light Emitting Diodes • energy scavenging/storage & power management 8 IST-2007.3.2 (a): Organic & Large-Area Electronics Expected applications • • • • • • Polymer sensor coating e-paper, flexible displays smart tags, RFIDs Intelligent lighting Bio-sensors, lab on chip System in foil Sheet PVs & batteries OLED Support measures • • • • Flexchip-Modul i.e Si polymersolar cell Picture: Courtesy of Fraunhofer IZM Substrate & barrier foil energy regulation Picture: Courtesy of Plastic Logic Ltd Access to competence & infrastructures Training & education Joint users assessment of prototype equipment Develop synergies between the electronic, equipment, material & printing industries 9 IST-2007.3.2 (a): Visualisation & display Systems Expected Outcome • 3-D: Unrestricted visualisation, • • • natural scene acquisition & representation User interaction Extended performance, novel technologies display systems for next generation portable applications Areas of activity • Multi-viewer, pseudo-holographic 3D displays, 3D signal acquisition and processing • Extended colour & brightness space • Zero-power, foldable/transparent, virtual displays, µ-projectors 10 IST-2007.3.6: Micro/Nanosystems • Next generation smart systems Sensor- & actuator-based systems High density mass storage • Micro/Nano-Bio-ICT convergence Biosensors, lab-on-a-chip, bioMEMS, autonomous implants • Integration of smart materials Courtesy STELLA Integration of micro-nano technologies and smart systems into new & traditional materials, e.g. textiles, glass, paper • From smart systems to viable products Microsystems manufacturing technologies • Smart systems for communications & data management Smart micro/nanosystems enabling wireless access & facilitating intelligent networking • Support actions Technology access, education & training, coordination & dissemination at EU level Call 2 83 M€(*) 75 M€ CP (min 20 M€ IPs and 32 M€ STREPs) 4 M€ NoE 4 M€ CSA (*) Total amounts to be confirmed after a new financing decision for the 2008 budget 11 INTELLIDRUG Courtesy Finland Austria Greece Ireland Denmark Norway Liechtenstein Portugal Czech Republic Romania Slovakia Poland Hungary Estonia Bulgaria Slovenia Australia China Latvia Malta Korea Turkey Belgium Switzerland Spain Russian Federation Lithuania 0 Sweden 10 Netherlands 20 Israel 30 United Kingdom 40 Italy 50 Germany 70 France Micro/Nanosystems FP6 (2002-06) EC contribution per country M illions of Euro 60 12 2 Switzerland Greece 4 Hungary Israel Romany Sweden Norway Ireland Netherlands 6 Finland 8 Spain 10 Italy 12 United Kingdom 14 Belgium 16 France 18 Germany Micro/Nanosystems FP6 (2002-06) Coordinating organisations by country 0 13 Country Poland Romania Slovakia Slovenia Project Participant AKADEMIA GORNICZO-HUTNICZA MUNDIS Asm Centrum Badan I Analiz Rynku Sp.Zo.O IntelliDrug Institut of Electron Technology OPTOLABCARD; e-CUBES; Healthy Aims; INTEGRAMplus; MINOS EURONET Institute Of Electronic Materials Technology AMICOM Jagiellonian University VECTOR Polish Academy Of Sciences, Medical Research Center SENSATION Silesian University Of Technology GOSPEL Technical University of Lodz ProeTEX Warsaw University Of Technology IntelliDrug; PATENT Wojskowa Akademia Techniczna FORK Wroclaw University of Technology DAVID Honeywell Romania SRL e-CUBES National Institute for Reseach and Development in Microtechnologies MINOS - EURONET; PATENT; INTEGRAMplus; ToxiChip; AMICOM Sc Atc Rom Srl SENSATION SIVECO Romania S.A. P.CEZANNE Institute of Normal and Pathological Physiology - Slovak Academy of Sciences SENSACTION-ALL Comenius University Bratislava DVT-IMP Polymer Institute of the Slovak Academy of Sciences P.CEZANNE Slovak University of Technology Bratislava ERA Pilot MiNa TSI; MINOS - EURONET University of Ljubljana, Faculty of Electrical Engineering MINOS - EURONET 14 Country Project Participant Bulgaria Technical University of Sofia MINOS - EURONET Czech Rep. IBM Ceska Republika SRO NETCARITY Charles University Prague – 2. School of Medicine Micro2DNA Czech Technical University In Prague, Faculty Of Electrical Engineering POLYAPPLY INSTITUTE OF PHYSICS OF THE ACADEMY OF SCIENCES OF THE CZECH REPUBLIC MUNDIS TESCAN, s.r.o. NanoHand University of West Bohemia MUTED Estonia University of Tartu ERA Pilot MiNa TSI Hungary Budapest University of Technology and Economics DVT-IMP; microBUILDER; MINOS - EURONET; PATENT HOLOGRAFIKA Hologrameloallito HOLOVISION; OSIRIS Institute for Psychology of the Hungarian Academy of Sciences NeuroProbes Latvia University of Latvia FLEXIDIS Lithuania Institute Psychophysiology And Rehabilitation SENSATION Kaunas University of Technology MINOS - EURONET Fondazzjoni Temi zammit ERA Pilot MiNa TSI University Of Malta SENSATION Malta 15 Micro/Nanosystems For more information Website: http://cordis.europa.eu/ist/mnd/ Contact: [email protected] 16