AB 7.Çerçeve Programı Bilgi ve Đletişim Teknolojileri (ICT) 2011 Proje Konuları Hüseyin METĐN ICT Alanı Ulusal Đrtibat Noktası
Projelerin Doğru Programa Yönlendirilmesi Technology Complexity Ulusal Destekler EUREKA Programı Çerçeve Programları KISA ORTA UZUN PAZAR 2
Nedir bu 7.Çerçeve? 7. Çerçeve = Avrupa Birliği Araştırma ve Teknoloji Geliştirme 7. Çerçeve Programı Amacı : Avrupa yı dünyanın lider bilgi-temelli ekonomisi yapmak (ABD, Japonya) Çok uluslu bir program : doğal üyeler (AB üye ülkeleri), asosye üyeler, 3. ülkeler Destek alanları: temel ve uygulamalı araştırma, altyapıyı iyileştirme, araştırmacıların dolaşımı Fon miktarı ve tipi: 2007 2013 için 50 milyar Avronun üzerinde hibe destek
AB Çerçeve Programlarının Temel Özellikleri Dünyanın en büyük sivil araştırma programı Çok Yıllı 3-5 yıl sonra pazara sunulacak ürünler Bütçenin %83 ü proje bazlı dağıtılıyor %17 si: çeşitli uluslararası yapılar ve idari masraflar
AB Çerçeve Programlarının Bütçesi (milyar ) * AB Çerçeve Programlarının Bütçesi (Milyar ) (*) AB nin toplam araştırma fonlarının %5 i...
7. Çerçeve Programı ve Türkiye 6.Çerçeve ile girdik 2002 2006 500 e yakın ortak 7.Çerçeve Programı ile devam ediyoruz 2007-2013 Ortaklık tipimiz: Asosye üye, AB üye ülkeleri ile her alanda eşit haklara sahibiz! Sorumlu kurum, kuruluş : TÜBĐTAK Sorumlu kişiler UIN : ilgi duyduğunuz konu başlığında size her türlü desteği sağlayacak olan ilk bilgi kaynağıdır www.fp7.org.tr
Fark var! 7. Çerçeve Programı nın diğer ulusal Ar- Ge fonlarından farkı Çok ortaklı, uluslararası Ar-Ge projeleri (en az 3) Konu güdümlü araştıma öncelikleri (çalışma programları) Katılım bürokrasisi ve fon miktarları
7. Çerçeve Programı neyi destekler? Đşbirliği Projelerini (Cooperation) 10 tematik alanın çalışma programlarında belirtilen konulardaki çok ortaklı uluslararası konsorsiyumlar ın Ar- Ge projeleri desteklenir Bireysel Araştırmacıları (Ideas) Temel araştırma olarak nitelendirebileceğimiz, bilimde yeni ufuklar açabilecek bireysel çalışmalar desteklenir Araştırmacı Đnsan Kaynaklarını (People) Araştırmacıların dolaşımı, 3. ülkelerdeki araştırmacıların geri getirilmesi, araştırma kuruluşları arasındaki işbirliklerinin güçlendirilmesi... gibi bir çok faaliyet desteklenir Araştırma kapasitesinin arttırılması (Capacities) Araştırma altyapıları, KOBĐ lerin ihtiyaçları, uluslarası işbirlikleri desteklenir
Đşbirliği Özel Programı 10 Tematik alan Yıllık Çalışma Programları Konu güdümlü projeler Uluslararası konsorsiyumlar Üniversite-Sanayi Đşbirliği Uygulamalı Araştırma Sağlık Gıda, Tarım ve Biyoteknoloji ICT Nanobilimler, Nano teknolojiler, Malzemeler ve yeni Üretim Teknolojileri Enerji Çevre Ulaştırma Sosyoekonomik ve Beşeri Bilimler Uzay Güvenlik
ICT alanı: 8 öncelik + FET Socio-economic goals 5.ICT for Health, Ageing Well, Inclusion & Governance 6. ICT for a low carbon economy 7. ICT for Enterprise and Manufacturing 8. ICT for learning and Access to Cultural Resources Industry/Tech needs 1. Pervasive and Trusted Network& Service Infrastructures 2. Cognitive Systems and robotics 3. Alternative Paths To Components and Systems FUTURE INTERNET PPP Future and Emergin ng Technologies (FET T) 4. Technologies for Digital Content and Libraries AAL GC /EEB FoF 10
CALL 8 Call identifier: FP7-ICT-2011-8 Date of publication: 26 July 2011 Deadline: 17 January 2012, at 17:00.00 Brussels local time Indicative budget: EUR 785.5 million 11
Challenge 1: Pervasive and Trusted Network and Service Infrastructures Future Networks - targeting the development of the technologies for the future European network infrastructure and broadband access Software, services and cloud computing technologies - will focus on technologies specific to the networked distributed dimension of software and the distributed access to services and data Architectures and systems for the interconnection of sensors, actuators and embedded computational and intelligent elements connected to the Internet Networked media and search systems - that will focus on developing end-toend immersive, interactive media systems that enable personalised and enhanced new media experiences Trustworthy ICT Experimental facilities (known as FIRE) Future Internet Public Private Partnership focus on the development of innovative open network and service platforms
Challenge 1: Pervasive and Trusted Network and Service Infrastructures
Challenge 1 Objective ICT-2011.1.1 Future Networks a) Wireless and mobile broadband systems 152 M b) High capacity end-to-end infrastructure technologies c) Novel Internet architectures and management and operation frameworks d) Flexible, resilient, broadband satellite communication IP, STREP 8 M e) Coordination and support actions and Networks of Excellence CSA 14
Challenge 1 Objective ICT-2011.1.1 Future Networks a) Wireless and mobile broadband systems LTE-Advanced and post-lte systems focus on medium term evolution of LTE systems new radio transmission paradigms and system designs Enabling technologies for flexible spectrum usage for mobile broadband including new ambitious approaches to cognitive radio Commercial and regulatory constraints and opportunities. Self-management, self-configuration properties Novel radio network topologies the need for autonomy, energy efficiency, high capacity backhaul, low EMF radio exposure, and smaller low power base stations. Integration of radio technologies with optical fibre networks consolidation of mobile and wireless networks into integrated communication systems (using e.g. femto-cells) which can deliver ultra high speed wireless access in the home, the street or in the enterprise 15 b) High capacity end-to-end infrastructure technologies c) Novel Internet architectures and management and operation frameworks d) Flexible, resilient, broadband satellite communication
Challenge 1 Objective ICT-2011.1.1 Future Networks a) Wireless and mobile broadband systems b) High capacity end-to-end infrastructure technologies Ubiquitous fast broadband access convergence of heterogeneous broadband and mobile network technologies; (heterogeneous networks with optimised traffic exchange) Ultra high capacity all-optical networks WDM technologies enabling transportation of 160 wavelengths at 40Gb/s, in combination with TDM technologies with e.g.100gb/s per wavelength Functional split between circuit, flow and packet switching System perspective for photonic components and subsystems undertaken in Objective 3.5 c) Novel Internet architectures and management and operation frameworks 16 d) Flexible, resilient, broadband satellite communication
Challenge 1 Objective ICT-2011.1.1 Future Networks a) Wireless and mobile broadband systems b) High capacity end-to-end infrastructure technologies c) Novel Internet architectures and management and operation frameworks Future Internet architectures Visionary multi-disciplinary research on new architectures Network management and operation frameworks Self or distributed management approaches d) Flexible, resilient, broadband satellite communication 17
Challenge 1 Objective ICT-2011.1.1 Future Networks a) Wireless and mobile broadband systems b) High capacity end-to-end infrastructure technologies c) Novel Internet architectures and management and operation frameworks d) Flexible, resilient, broadband satellite communication Innovative system architectures and technologies. ultra high capacity satellite communication systems with seamless integration capabilities, reconfiguration of satellite-terrestrial protocols Novel technologies and architectures for resilient and flexible networks. Integration with navigation systems and sensor networks 18
Challenge 1 Objective ICT-2011.1.2 Cloud Computing, Internet of Services and Advanced Software Engineering a) Cloud Computing 68.5 M b) Internet of Services c) Advanced Software Engineering IP, STREP 1.5 M d) Coordination and support actions CSA 19
Challenge 1 Objective ICT-2011.1.2 Cloud Computing, Internet of Services and Advanced Software Engineering a) Cloud Computing Intelligent and autonomic management of cloud resources, ensuring agile elastic scalability. - Technologies for infrastructure virtualisation, cross platforms execution as needed for service composition across multiple, heterogeneous environments, autonomous management of hardware and software resources. - Interoperability amongst different clouds, portability, protection of data in cloud environments, control of data distribution and latency. - Seamless support of mobile, context-aware applications. Energy efficiency and sustainability for software and services on the cloud -Open Source implementations of a software stack for Clouds 20 b) Internet of Services c) Advanced Software Engineering d) Coordination and Support Actions
Challenge 1 Objective ICT-2011.1.2 Cloud Computing, Internet of Services and Advanced Software Engineering a) Cloud Computing b) Internet of Services c) Advanced Software Engineering -Advanced engineering for software, architectures and front ends spanning across all abstraction levels. -Quality measure and assurance techniques which adapt to changing requirements and contexts, to flexibly deal with the complexity and openness of the Future Internet. -Management of non-functional requirements typical of Internet-scale applications, like concurrency levels which will be orders of magnitude larger than in today's applications,huge data stores and guaranteed performance over time. -Tools and methods for community-based and open source software development, composition and life cycle management. a) Coordination and Support Actions 21
Challenge 1 Objective ICT-2011.1.4 Trustworthy ICT a) Heterogeneous networked service and computing 70 M environments b) Trust, eid and Privacy management Infrastructures c) Data policy, governance and socio-economic ecosystems IP, STREP 10 M d) Networking and Coordination Activities NoE, CSA 22
Challenge 1 Objective ICT-2011.1.6 Future Internet Research & Experimentation (FIRE) 15M a) FIRE Facility, IP Maturing and expanding the FIRE Facility i. New areas Complementary to existing facilities (e.g. social networking, 3D Internet) Operational prototype at early stage ii. Extension Advancing existing prototypes successful in offering experimentation services used already for large scale and diverse testing 5M b) FIRE Science, NoE Provide a unique, operational, sustainable, dynamic and integrated large scale experimental facility 23
Challenge 3: Alternative Paths to Components and Systems Very advanced nano-electronic components Smart components and smart systems integration New paradigms for embedded systems, monitoring and control towards complex systems engineering Computing systems Core and disruptive photonics technologies Flexible, organic and large area electronics and photonics
Challenge 3: Objective ICT-2011.3.1 Very advanced nanoelectronic components: design, engineering, technology and manufacturability 55 M a) Beyond CMOS technology b) Circuit-technology solutions c) Nano-manufacturing and joint equipment assessment IP, STREP 5 M d) Coordination and Support Actions CSA
Challenge 3: Objective ICT-2011.3.2 Smart components and smart systems integration 39 M b) Micro-Nano Bio Systems IP, STREP
Challenge 3 Objective ICT-2011.3.5 Core and disruptive photonic technologies 79 M a) Core photonic technologies IP, STREP 10 M c) Eranet+ Action 3 M d) Pre-Commercial Procurement Action
Challenge 3 Objective ICT-2011.3.5 Core and disruptive photonic technologies 79 M a) Core photonic technologies Application-specific photonic components & subsystems for: 1. Optical data communications 2. Biophotonics for early, fast and reliable medical diagnosis of diseases 3. Imaging & sensing for safety and security 4. Lighting and displays IP, STREP Cross-cutting technology: 5. Photonics integration platforms IP
Challenge 4: Technologies for Digital Content and Languages Easing and speeding up the creation of added value, in particular by SMEs Allowing people to access and use online content and services across language barriers, in their preferred language Ensuring complete reliability of retrieval and use of digital resources Scaling up data analysis to keep pace with the rate of growth of data streams and collections
Challenge 4 Objective ICT-2011.4.4 Intelligent Information Management a) Reactive algorithms, infrastructures and methodologies STREP 43 M b) Intelligent integrated systems -> IP c) Framework and tools for benchmarking and exploring information management diversity STREP 7 M d) Targeted competition framework speeding up progress towards large scale information management systems of global relevance e) Community building networks CSA
Challenge 6: ICT for a low carbon economy Objectives The future electricity distribution network Energy efficient design and decision support tools Water management, including demand-side management Energy-efficient buildings, neighbourhoods and urban areas
Challenge 6 Objective ICT-2011.6.1. Smart Energy Grids a) Strengthening the distribution grid by providing control systems, management and decision support tools that enable the integration of renewable energy sources, both large scale production (e.g. wind and solar farms) and massively distributed production (e.g.residential and tertiary buildings) b) Advancing security and reliability, as well as protection of 29 M equipment, fault detection and alert, and self-healing through development of the necessary high power electronics c) Data management infrastructures to allow electricity production and consumption to be measured, reported and controlled (and eventually credited or billed) d) Home energy controlling hubs that will collect real-time or near real-time data on energy consumption data from smart household appliances and enable intelligent automation. STREP
Challenge 6 Objective ICT-2011.6.1. Smart Energy Grids e) Building consensus on industry-driven open standards to ensure the interoperability of smart grids control and management systems. 1 M CSA
Challenge 6 Objective ICT-2011.6.3. ICT for efficient water resources management Water management enabled by ICT - to integrate real-time knowledge on demand and supply across water distribution networks and water sources. 15 M ICT-enabled solutions for integrated water resources management (IWRM), demand management systems, decision support systems and data management technologies. new data management technologies with realtime predictive capability demand forecasting, advanced metering, real-time communication of consumption patterns, adaptive pricing, and/or combined energy and water management schemes. Projects should cover (i) research and innovative integration of solutions, (ii) substantial validation of these in at least two real-life operational environments in collaboration with responsible water authorities and utilities, and (iii) evaluation of their anticipated cost and benefits and market prospects. STREP
Challenge 6 Objective ICT-2011. 6.7 Cooperative Systems for energy efficient and sustainable mobility 37 M a) Cooperative Systems for low-carbon multi-modal mobility b) European Wide Service Platform (EWSP) for cooperative system enabled services IP, STREP 3 M c) Coordination and Support Actions CSA 35
Challenge 8 Objective ICT-2011. 8.1. Technology- Enchanced Learning a) Technology Enhanced Learning systems endowed with the capabilities of human tutors STREP b) Educational technologies for science, technology and maths (b1) Supporting students to understand and construct their personal conceptual knowledge and meaning of scientific, technological and/or mathematical subjects. Technological solutions should take the learners through the complexity of a subject, activating and feeding curiosity and reasoning, and support the creative applications of the theory. (STREP; NoE) (b2) Supporting Europeanwide federation and use of remote laboratories and virtual experimentations for learning and teaching purposes. The service shall enable online interactive experimentations by accessing and controlling real instruments, or using simulated solutions IP 36
Challenge 8 Objective ICT-2011. 8.1. Technology- Enchanced Learning c) Advanced solutions for fast and flexible deployment of learning opportunities at the workplace (targeting, in particular, SMEs) IP d) Computational tools fostering creativity in learning processes STREP 37 e) Exploratory activities CSA IP/STREP: 53 M NoE/CSA: 7 M
ICT PPP CALLS FP7-2012-NMP-ENV-ENERGY-ICT-EeB FP7-2012-ICT-GC FP7-2012-NMP-ICT-FoF Date of publication: 30 July 2011 Deadline: 2 December 2011 38
Energy Efficient Buildings (EeB) Objective EEB-ICT-2011.6.5 ICT for energy-positive neighbourhoods developing management and control systems, decision-support systems addressing the dynamics of energy supply and demand in neighbourhoods and extended urban/rural communities. These systems shall optimise the use of energy beyond the buildings (considering for instance street lighting, urban heat production, electrical vehicles), and they shall include the integration of renewable energy sources and the connection to the electricity distribution grid in order to take advantage of variable tariffs and diversity of supply Interoperation of these systems with other ICT-based systems (e.g. traffic management systems, Geographical Information Systems) that may be deployed in the area will be considered an asset. In addition to systems integration, proposals shall include a substantial validation phase. 39
Factories of the Future (FoF) / Objective FoF-ICT-2011.7.1 Smart Factories: Energy-aware, agile manufacturing and customisation a) Demonstration and benchmarking of novel process automation and control (for discrete, continuous or batch industries) b) Large-scale validation of advanced industrial robotics systems c) Applications based on factory-wide networks of intelligent sensors and new metrology tools and methods d) Lasers and laser systems for manufacturing and materials processing e) and c) IP b) and d) STREP 40
Factories of the Future (FoF) / Objective FoF-ICT-2011.7.2 Manufacturing solutions for new ICT products Applications range from OLED lighting, organic photovoltaics and printed batteries, to signage and displays, organic and large area sensor arrays, organic and printed electronics as well as flex/foilbased integrated smart systems. industrial, low cost, high volume and high throughput manufacturing processes and production of organic and large area electronics and photonics products IPs 41
Green Car (GC) Objective GC-ICT-2011.6.8 ICT for fully electric vehicles e) Electric Drive and Electronic Components f) Integration of the FEV in the cooperative transport infrastructure g) Functional Safety and Durability of the FEV h) Coordination and Support Action FEV made in Europe STREPs 42
CALL 9 Call identifier: FP7-ICT-2011-9 Date of publication: 18 January 2012 Deadline: 17 April 2012, at 17:00.00 Brussels local time Indicative budget: EUR 291 million 43
44
FET Dinamikleri Geleceğin bilgi ve iletişim teknolojilerini keşfetmek Uzun vadeli, yüksek riskli araştırma projeleri Birden çok akademik disiplini bir araya getiren Yeni araştırma alanlarını ortaya çıkarmak, Avrupa çapında işbirliği takımları oluşturmak En az 3 farklı ülke, ABD, Kanada gibi gelişmiş ülkeler FET uluslararası arenada seçkin çalışmaları olan araştırmacıları cezbetmektedir FET alanı altında desteklenen bir çok araştıramcı prestijli ödüller kazanmıştır 2007 Nobel Fizik ödülü Albert Fert (FR) ve Peter Grünberg (DE), 2005 Nobel Fizik ödülü Theodor Hänsch (DE) 2008 Marie Curie Ödülü Andrea Ferrari (VIACARBON projesi) 2008 Newton Medal of the Institute of Physics, Anton Zeilinger (QAP projesi) 45
FET Future Emerging Technologies FET OPEN Objective ICT-2011.9.1: Challenging current Thinking 75 M 9 M Objective ICT-2011.9.2: High-Tech Research Intensive SMEs in FET research Objective ICT-2011.9.3: FET Young Explorers Objective ICT-2011.9.4: International cooperation on FET research 6 M 3 M 46
FET OPEN Objective ICT-2011.9.1: Challenging current Thinking Yüksek riskli / yüksek etkili çalışma programında yer almayan konulardaki projeler STREP, CSA 75 Milyon Avro (70-5) Sürekli açık STEP:11 Eylül 2012 CSA: 12 Mart 2013 2 aşamalı başvuru 75 M 2-3 yıllık 2 Milyon Avro civarında bütçesi olan projeler 47
High-Tech Research Intensive SMEs in FET 9 M Objective ICT-2011.9.2: High-Tech Research Intensive SMEs in FET research Geleceğin iş alanlarını oluşturacak ve öncü olacak araştırma yapan KOBĐ lerin liderliği Kısa dönem ticari çıktılar hedeflenmiyor Proje KOBĐ nin istediği yönde gidecek ve en büyük payı KOBĐ alacak STREP, 9 Milyon Avro 1 Milyon Avro civarında bütçeli projeler 11 Eylül 2012 ye kadar sürekli açık 2 aşamalı başvuru 48
FET PROACTIVE Geleceğin ICT araştırma konularında, uzun vadeli araştırmalar hedef alınıyor Çalışma programında belirlenen yenilikçi konu başlıkları ICT WP FET PROACTIVE FET OPEN 49
FET Proactive Çalışma Programında belirlenmiş konu başlıkları ve hedefler 2011-2012 de 170 Milyon Avro fon IP,STREP,CSA Projeleri 2 milyon ve daha yüksek bütçeler mümkün Tek aşamalı başvuru, diğer ICT alanları ile aynı değerlendirme 50
FET Proactive Objective ICT-2011 9.6: FET Proactive: Unconventional Computation (UCOMP) Objective ICT-2011.9.7: FET Proactive: Dynamics of Multi-Level Complex Systems (DyM-CS) Objective ICT-2011.9.8: FET Proactive: Minimising Energy Consumption of Computing to the Limit (MINECC) Objective ICT-2011.9.12: Coordinating Communities, Identifying new research topics for FET Proactive initiatives and Fostering Networking of National and Regional Research Programmes: 51
ICT Brokerage Etkinliği 27 Eylül 2011 Ceylan International
TEŞEKKÜRLER Tüm soru ve görüşlerinizi için; Tel: 0312 468 5300 Hüseyin METĐN (dahili:2861) www.fp7.org.tr/ict ncpict@tubitak.gov.tr