EU 7 th Framework Programme ICT Theme Calls 8, 9 and PPP Calls Timo Taskinen Tekes / Keski-Suomen ELY-keskus National contact point for ICT
EU 7. puiteohjelma ICT-Teema 8.9.2011 ICT-teema osana 7. puiteohjelmaa Avoinna olevat ja pian tulevat kutsut sisältöineen 8. Kutsu ( 17.1.2012) Tulevaisuuden verkot ja komponentit Pilvilaskenta Informaation hallinta Teknologia-avusteinen oppiminen Sovellukset: Ympäristö, Energia, Turvallisuus, Materiaalit, PPP-kutsut ( 1.12.2011) 9. Kutsu ( 17.4.2012)
Tieto- ja viestintäteknologian tavoitteet Tavoitteena on parantaa eurooppalaisen teollisuuden kilpailukykyä ja vastata yhteiskunnan ja talouden tarpeisiin ICT:llä on katalyyttinen vaikutus kolmeen avainalueeseen: 1. Tuottavuus ja innovaatiot, edistää luovuutta ja johtamista 2. Julkisten palvelujen uudenaikaistaminen, esim. terveydenhoito, koulutus ja liikenne 3. Tieteen ja teknologian kehittyminen, tukemalla yhteistyötä ja tiedon saatavuutta
Basic ICT technologies & infrastructures Future & Emerging Technologies (FET) ICT Työohjelma 2011-12 Jako haasteisiin ICT for socio-economic challenges ~ budget shares, 1. Network and Service ~26% Infrastructures ~10% ~11% 5. ICT for Health, Ageing, Inclusion & Gov. ~12% ~9% 6. ICT for Lower- Carbon Economy ~6% ~4% 7. ICT for Manufac. & Enterprise 8. ICT for Learning & Cultural Resources ~11% 2. Cognitive Systems and Robotics ~6% 3. Component and ~17% Systems 4. Digital ~7% Content and Languages International cooperation, Cooperation in an enlarged Europe, Pre-commercial Procurement 4
Pääkutsut ICT Teeman kutsujen aikataulut Kutsu 8 päättyy 17.1.2012 Kutsu 9 alkaa 18.1.2012 ja päättyy 17.4.2012 Public Private Partnerships (PPP) kutsut päättyvät 1.12.2011 Energiatehokkaat rakennukset (EEB) Sähköautot (Green Cars, GC) Tulevaisuuden tehtaat (FoF) Paitsi: Tulevaisuuden internet (Future Internet) PPP 2. kutsu päättyy 24.10.2012
ICT Call 8 Closes 17.1.2012 Twelve objectives in five of ICT Challenges 1.1 Future networks 1.2 Cloud computing; advanced software engineering 1.4 Trustworthy ICT 1.6 Future Internet research and experimentation 3.1 Nanoelectronic components 3.2 Smart components and smart systems integration 3.5 Photonics technologies 4.4 Intelligent information management 6.1 Smart energy grids 6.3 Efficient water resources management 6.7 Cooperative systems for energy efficiency and mobility 8.1 Technology-enhanced learning
Network and service infrastructures 1.1: Future Networks supporting the convergence and interoperability of heterogeneous mobile, wired and wireless broadband network technologies novel Internet architectures; network management and operation frameworks, wireless and mobile broadband systems and ultra-high capacity all-optical networks, satcoms 1.2: Cloud computing, Internet of Services & advanced software engineering technologies specific to the networked, distributed dimension of software and the access to services and data 1.4: Trustworthy ICT security in networked service and computing environments; trust, privacy and claims management infrastructures; data policy, governance and socioeconomic aspects of trustworthy ICT 1.6: Future Internet Research and Experimentation (FIRE) FIRE Federation FIRE Experimentation Coordination and support 160 M 10
Future Networks - Objective 1.1. a) Wireless and mobile broadband Systems LTE-Advanced and post-lte Systems (targeting new radio transmission paradigms and system designs) Flexible and efficient spectrum usage (reference implementation for cognitive radio, low radiation, spectrum sharing) Novel radio network topologies (autonomy, energy efficiency) Integration radio and fiber (integrated communication systems using e.g. femto-cells) 11
ICT Work Programme 2011-12 Objective 1.2 Cloud computing Target outcomes Internet of services Advanced software engineering Management of cloud resources Infrastructure virtualisation Cloud Interoperability Open source implementation of a software stack for clouds Service engineering Integration of real and virtual worlds Scalability, self-management, fault localisation, Advanced engineering for software Quality measure and assurance Tools and methods for community-based and open source software development 70 M : 68.5 M + 1.5 M Support actions Standardization and collaboration Open source development model International cooperation on cloud computing
Cloud computing and internet of Services Objective 1.2 contribute to A proposal or project should achieve Target outcomes Cloud computing Internet of services Advanced software engineering Expected impact Emergence of European interoperable clouds Platforms for development and deployment of services Lower barriers to develop and use services Efficient software applications on parallel architectures Easier evolution of legacy software Fast innovation cycles in service industry A strengthened industry in Europe for software-based services
FP7-ICT Call 8: 1.4 Trustworthy ICT 80 m 20/7/2011 17/1/2012 Heterogeneous networked, service and computing environments Trust, eidentity and Privacy management infrastructures 70 M Min. 50% IPs Min. 30% STREPs Data policy, governance and socio-economic ecosystems Networking and coordination activities Max. 10 M NoE, CSA 14
ICT-tutkimuksen sovellusesimerkkejä 8. Kutsun aiheissa Luotettava ICT 80 M : Turvallisuus Nanoelektroniikka 60 M : Nano ja materiaalit Älykkäät komponentit ja järjestelmäintegraatio 39 M (Mikro-Nano-Bio-järjestelmät): Terveys, Ruoka Fotoniikka 92 M : Valoon perustuvat diagnosointiyms. laitteet: Terveys, Turvallisuus Älykkäät energiaverkot 30 M : Energia Tehokas vesivarojen hallinta 15 M : Ympäristö Kestävän logistiikan järjestelmät 40 M : Ympäristö
ICT tutkimuksen sovellusesimerkkejä Public Private Partnerships (päättyy 1.12.2011) Sähköautojen tietotekniikka 30 M (Green Cars): Ympäristö, materiaalit Energiapositiiviset naapurustot 30 M (Energy Efficient Buildings): NMP, Ympäristö, Energia Älykkäät tehtaat 40 M, Uusien ICT tuotteiden valmistusmenetelmät 20 M (Factories of the Future, PPP FoF): NMP 9. kutsu: Virtuaalinen malli ihmisestä ja sairauksien simulointi 66,5 M : Terveys
Intelligent Information Management Obj 4.4 Target outcomes a) Reactive algorithms, infrastructures and methodologies for scaling data intensive techniques up to extremely large data volumes and real time performance. (Must: Rigorously tested on extremely large and realistically complex data sets coming from diverse resources contributed by organisations with a clear stake in the solution and a clear path to deploying it if effective). /STREP/ b) Intelligent integrated systems that directly support decision making and situation awareness by dynamically integrating, correlating, fusing and analysing extremely large volumes of disparate data resources and streams. c) Framework and tools for benchmarking and exploring information management diversity and comparing and optimising the performance of non mainstream data management architectures and computing paradigms, novel data structures and algorithms on extremely large volumes of data. /STREP/ 20
Objective ICT-2011.8.1 Technology-enhanced learning Target outcomes a)adaptive tutoring systems b)educational technologies for science, technology and maths c)workplace Learning (targeting, in particular, SMEs) d)creativity in learning processes e)exploratory activities
PPP-kokonaisuudet Energy efficient Buildings (EEB) Factories of the Future (FoF) Green Cars (GC)
Objective EEB-ICT-2011-6.5 ICT for Energy-positive neighbourhoods Target Outcomes Address the dynamics of energy supply and demand in neighbourhoods and extended urban/rural communities Management and control systems Decision support systems Beyond buildings Integration of renewables Connection to the electricity grid Compact consortiums! Validation of the results!
FoF: Objective 7.1: Smart Factories Energy-aware, agile manufacturing & customisation Objective 7.2: Manufacturing solutions for new ICT products Target outcomes a) Demonstration, benchmarking of process automation & control For discrete, continuous or batch industries Key features: flexibility, autonomy, robustness, energy transparency Demonstration in real industrial environments b) Large-scale validation of advanced industrial robotics systems User-friendly interaction with & tasking of intelligent cooperative robotic systems Large-scale applicability to flexible, small batch & craft manufacturing c) Applications based on factory-wide networks of intelligent sensors, new metrology tools & methods Real-time management of manufacturing information (incl. planning, scheduling, dispatching) d) Lasers & laser systems for manufacturing & materials processing High-brilliance diode lasers/laser arrays New wavelengths & online adaptation of beam properties Call FoF/2011 40 M IPs/STREPs NCPs-InfoDay_13May11
Objective 6.8: Green Car: ICT for Fully Electric Vehicles Target outcomes: Architecture for Energy, Communication & Thermal Management, Energy / Power Storage Systems Electric Drive & Electronic Components Integration in cooperative transport Infrastructure Vehicle 2 Grid Interface Vehicle Stability Control CSA FEV made in Europe Functional Safety & Durability Call FP7-2011-ICT-GC 30M Streps Call FP7-2012-ICT-GC 30M Streps / CSA Closing 1 Dec 2011
ICT Kutsu 9 18.1.2012-17.4.2012 Ohjaus ja älykkyys robotiikassa 82 M Digitaalisen tiedon säilyttäminen 30 M Virtuaalinen malli ihmisestä ja sairauksien simulointi 66,5 M Kulttuuririkkauksien saavutettavuus ICT:n avulla 40 M. Lisäksi Tulevaisuuden tutkimusaiheet osion avoin haku 93 M (FET-Open) ja proaktiivinen haku 70,5 M
Help with your proposal? Suomen EU-T&K-sihteeristö, neuvoja suomeksi http://www.tekes.fi/eu/ EU-commission 7FP ICT pages http://cordis.europa.eu/fp7/ict/home_en.html Partner search http://www.ideal-ist.net/ Contact persons: Timo Taskinen (Tekes, Keski-Suomen ELY-keskus) Hannu Nurmi (Tekes) [Juha Latikka (Academy of Finland)]
Timo Taskinen National contact point for the ICT Theme at the EU 7th Framework Programme Tekes & Keski-Suomen ELY-keskus timo.taskinen@ely-keskus.fi tel. 0400648504