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Future and Emerging TechnologiesProactive
Initiatives in FP7 WP 2009-2010
FET - [email protected]
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Intelligence
Components Systems
Miniaturisation!ManagingComplexity!
Bio-inspiration!
What is FET proactive?
Biology &
Life-sciences
Cognitive
sciences
Social
Sciences
Physics,
Chemistry
MaterialsSciences
Core ICTsCommunication,
IT, Interfaces
Bringing newscience intotechnology!
Co-evolution of societaland technologicalchange
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Call 4
Call 5
Call 6
8.1 Concurrent Tera-Device Computing (15M, IP/Strep)
8.2 Quantum Information Foundations & Techn. (15M, IP)
8.3 Bio-Chemistry based Information Techn. (7M, Strep)
8.4 Human-Computer Confluence (15M, IP)
8.5 Self-Awareness in Autonomic Systems (15M, IP/Strep)
8.6 Towards Zero-Power ICT (7M, Strep)
8.7 Molecular Scale Devices and Systems (15M, IP/Strep)
8.8 Brain Inspired ICT (15M, IP/Strep)
FET Proactive WP 2009-2010transformative and foundational research CSA CSA
1,5M 0,5M
8.9Coordina
tingCommunities,Plans&
ActionsinFETProactiveInitiatives
8.10Identify
ingnewresearc
htopics,
AssessingemergingglobalS
&Ttrends
forfutureFETProactiveInit
iatives
8.9 Coordinating Communities, Plans &Actions in FET Proactive Initiatives
8.10 Identifying new research topics,Assessing emerging global S&T trendsfor future FET Proactive Initiatives
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Coordinating Communities, Plans andActions in FET Proactive Initiatives
ICT-2009.8.9
Supporting targeted research communities Increase visibility and collective impact of scientific community,
industry & public Consolidation of research agendas
Foster coordination of national, regional and international programmesand activities
Encouraging establishment of new educational curricula
Actions specifically aiming at networking of research activities atnational or regional level
Should involve national or regional research programme owners
Coordination of national, regional or international programmes andactivities Preparation and implementation of joint trans-national calls ERA-NET plus action in subsequent phase
Research communities can be linked to existing initiatives(based around running projects), or communities that are
new to FET.
What is expected?
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Coordination action: Typical: funding around 500K, 3-6 partners, duration 3 years At least 3 partners A large representation of scientific groups is often better achieved
through a scientific board.
Specific support action: Typical: funding around 100K, 1-2 years can be only 1 partner
eventssupport ofcooperation
communitybuilding
researchagenda
researchroadmap
identifying driversof future research
criteria toassess
researchresults
linking tonational
and regionalprogrammes
internationalcooperation
Promotion of activitiesAnd results in media
Coordinating Communities, Plans andActions in FET Proactive Initiatives
ICT-2009.8.9
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Identifying new research topics, Assessingemerging global S&T trends in ICT for future FET
Proactive initiatives
ICT-2009.8.10
Efforts towards definition of future FET Initiatives, either:
Identifying new research topics
Position paper with need for action, research challenges andimpact foreseen in science, technology and society.should not be at project level but at proactive initiative level!
or: Assessing emerging global S&T trends in ICT
That could lead to the definition of research topics, to overcomeroadblocks and set the future picture assess the potential of recent breakthroughs in FET related
research
Projects should provide first inputs by Spring 2010!
What is expected?
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6-12 months duration
In both cases a clearly motivated ideaand assessment of the impact are expected
Trend assessment200 K Euro per proposal*
New research topics100 K Euro per proposal*
Call Budget of 500 K Euroto be split into
(*rough expected EU contribution per proposal)
Specific Support ActionsCould be just one group
Coordination ActionsInvolvement of different groups (3-5)
Identifying new research topics, Assessingemerging global S&T trends in ICT for future FET
Proactive initiatives
ICT-2009.8.10
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Contact points for 8.9 and 8.10
8.9 Contact:
8.10 Contact:
mailto:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected] -
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Concurrent Tera-Device Computing
ICT-2009.8.1,a FET proactive challenge in FP7 Call 4
Budget: 15 M
Funding schemes:
STREPs, IPs (>50%) Contact:[email protected]
Background document
- FET workshop Massive ICT Systemsftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-
proactive/massict-01_en.pdf/massict-02_en.pdf
mailto:[email protected]://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/massict-01_en.pdfmailto:[email protected] -
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Concurrent Tera-Device Computingrationale and objectives
RationaleIntegrated circuits and tightly-coupled systems willintegrate up to 1000 billion devices by the year 2020.
This will lead to better performances if architectures
and software can deal with: Higher concurrency
Heterogeneous architectures for specific applications
Variability and failure of components
Efficient power consumption
ObjectivesRadically new methods and tools for architecture, design
and programming of chips and systems beyond 2020
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1. Radically new concepts, design paradigms, methods andproof of concepts addressing design, compilation andrun-time complexity of many-core (100+)heterogeneous systems
2. Methodologies and approaches to the design ofdependable systems coping with critical levels ofcomponents, failures and variability, both softwareand hardware.
3. Radically new design and programming paradigmsfor effective programming (scalability, portability,
dependability) of many-cores tera-scale systems.
Concurrent Tera-Device Computingresearch topics
IPs to tackle at least 2, STREPS at least 1
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Concurrent Tera-Device ComputingExpected impact
1. supporting the design, programming and management ofconcurrent computing systems
2. extending European industrys strength to futureapplication domains
3. facilitating scalability and portability of applications
The initiative should prepare the future (beyond 2020)challenges for industry by
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Quantum Information Foundations & Technologies(QI-FT)
ICT-2009.8.2,a FET proactive challenge in FP7 Call 4
Budget: 15 M
Funding schemes:IPs only (at least 2 RT)
Contact:[email protected]
Background documentftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-
proactive/qipcqt-01_en.pdf
Courtesy of EQUIND
mailto:[email protected]:[email protected] -
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Quantum Information Foundations & Technologiesrationale and objectives
Rationale Technologies exploiting the quantum nature of
information offer novel modes of computing andcommunicating.
They have strong potential to circumvent some ofthe bottlenecks associated with the extrapolation ofpresent-day information processing andtechnologies.
General objectiveAdvance the state-of-the-art of QI-Technologies andcontribute to the transition of the field from upstreamresearch to application-oriented research.
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1. Scalability of
Quantum Processing Systems
2. Long-Distance
Quantum Communications &
Interconversion of qubits
3. Quantum Information Theory,
Algorithms and Paradigms
FP6 QIPC
AtomicScale
Techn.4. Entanglement EnabledQuantum Technologies
QI-FT: Quantum Information Foundations & Technologies
Target Outcomes:
New!
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Quantum Information Foundations & TechnologiesExpected Impact
enable the scalability of QI-Technologies in the presence ofenvironmental decoherence and facilitate their real-worlddeployment
develop reliable technologies for the different components
of quantum architectures
identify new opportunities fostered through the transfer ofentanglement technologies from laboratories to industries
The research should Courtesy of MICROTRAP
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Bio-chemistry-based Information Technology
ICT-2009.8.3,Call 4
Budget: 7 M
Funding schemes:
STREPs only Contact: [email protected]
Background document
- FET workshop Designing Alternative BIO-inspired ICTSftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-
bioict-01_en.pdf
mailto:[email protected]://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/livtec-bioict-01_en.pdfmailto:[email protected]:[email protected]:[email protected] -
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Bio-chemistry-based Information Technologyrationale and objectives
Rationale
Biological cells are highly sophisticated, chemicalinformation processing systems, capable of respondingto changing conditions. The information processingcapabilities of such systems could be exploited by futureinformation technologies if this information chemistrycould be programmed.
General objectiveDevelop the foundations for a radically new kind ofinformation processing technology inspired by chemicalprocesses in living systems.
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exploit information handling capabilities of bio-inspiredchemical systems by developing appropriatemechanisms to direct, control and analyse theirprocesses
exploit their ability to adapt/evolve/flexibly reconfigureby merging information handling processes andprocesses that create or reconfigure the physicalsystem (function and shape)
Requirements
experimentally (physically) demonstrate major stepstowards realizing advanced information processingsystems
be developed alongside a clear vision on the potentialimplementation and impact on information processing
Bio-chemistry-based Information Technologyresearch topics
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Bio-chemistry-based Information TechnologyExpected Impact
Enable the development ofICT systems and devices that
utilize interactions between components to assemblecomplex functional information processing materials.
Enable a new generation ofsystems capable of interfacingwith conventional IT systems that are self-replicating, self-repairing and/or capable of rapid adaptation/evolution as
well as flexible reconfiguration in response to changingconditions.
The research should
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Objective 8.4: Human Computer ConfluenceICT-2009.8.4,Call 5
Budget: 15 M
Funding schemes: IPs only
(2 RT at least)
Contact: [email protected]@ec.europa.eu
Background documents
- FET workshop Human Computer Confluence, Jan. 08ftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/hcco-02_en.pdf
- Shaping future FET Proactive initiatives, Sep. 07ftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-
01_en.pdf
mailto:[email protected]://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfmailto:[email protected] -
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Objective 8.4: Human Computer Confluence
HCC researches new modalities for perception, actionand experience in augmented virtual spaces, deliveringunified experiences involving radically new forms ofperception/action.
proposals should address 2 topics from:
Perception and interaction with massive amounts of data
Seamless merging of real and virtual worlds
New forms of perception and action
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Objective 8.4: Human Computer Confluence
Expected impact
Better understanding of how sensory information isdelivered to, and interpreted by, the brain
New methods and tools to merge real and virtualspaces
New ways for people to understand massive amounts of
data
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Self-Awareness in Autonomic Systems
ICT-2009.8.5,Call 5 Budget: 15 M
Funding schemes:STREPs (RT 1. or 2.), IPs (RT 1. and 2., >50%)
Contact: [email protected]@ec.europa.eu
Background document
- FET workshop Overlay Computing & Communication, Jan. 08ftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/overlcc-01_en.pdf
-Shaping future FET Proactive initiatives, Sep. 07ftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-
01_en.pdf
mailto:[email protected]://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/overlcc-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/shapefetip-sept07-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/overlcc-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/overlcc-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/overlcc-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/overlcc-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/overlcc-01_en.pdfmailto:[email protected] -
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Self-Awareness in Autonomic Systemsrationale and objectives
General objectivecreate autonomic computing and communicationsystems that are able to optimise overall performanceand resource usage in response to changing conditions,
adapting to both context (such as user behaviour) andinternal changes (such as topology).
nodes need to build up an awareness relating to higherand even global levels.
reconsider the tradition of fixing abstraction layers at
design time
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New concepts, architectures, foundations andtechnologies for:
1. Creating awareness at the level of autonomic nodes, byallowing them to interactively and selectively collect
information about the system, and use it effectively.2. Dynamic self-expression, namely the ability to
autonomically use awareness to adapt the trade-offbetween abstraction and optimisation.
Requirements
Self-Awareness in Autonomic Systemsresearch topics
usability in larger context demonstrator
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Self-Awareness in Autonomic Systems
Expected Impact
Lower management costs of large networked systems
through the ability to adapt to changing environments andpatterns of use, and through a greater degree of, flexibilityand reliability
More efficient use of resources such as processing power,
energy and bandwidth through autonomic decisions basedon awareness
The research should
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Towards Zero-Power ICT
ICT-2009.8.6,a FET proactive challenge in FP7 Call 5
Budget: 7 M
Funding schemes:STREPs only
Contact: [email protected]@ec.europa.eu
Background document
- FET workshop Molecular-Scale Information Systemsftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/molecsc-ict-01_en.pdf
mailto:[email protected]:[email protected] -
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Towards Zero-Power ICT
rationale and objectives
Rationale In Nanoelectronics and ICT, it is particularly important to
encourage nano-microscopic mechanisms of energyharvesting and more efficient power generation, as well aswork on complete functional nanosystems, e.g. for biosensing.
The topic has strong interdisciplinary aspects, as energyharvesting principles are based on physics, chemistry andbiology. It is also relevant from a societal point of view as itreduces conventional power consumption and permits newapplications in e.g. health care.
General objective
Explore new disruptive directions for energy-harvestingtechnologies at the nanometre and molecular scale, and theirintegration with low-power ICT into autonomous nano-scaledevices for sensing, processing, actuating and communication.
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1. Foundations of Energy Harvesting at the nano-scale:
Demonstration of radically new strategies for energy harvestingand local storage below the micrometer scale. Exploration andharnessing of potential energy sources at that scale, includingkinetic energy present in the form of random fluctuations, ambient
electromagnetic radiation, chemical energy and others. Researchmay also address bio-mimicked energy collection and storagesystems.
2. Self-powered autonomous nano-scale electronic devices:
Autonomous nano-scale electronic devices that harvest energyfrom the environment, possibly combining multiple sources, andstore it locally. These systems would co-ordinate low-powersensing, processing, actuation, communication and energyprovision into autonomous wireless nanosystems.
Towards Zero-Power ICT
research topics
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Towards Zero-Power ICT
Expected Impact
Explore the possibility of building autonomous nano-scaledevices (from sensors to actuators), extending theminiaturisation of autonomous devices beyond the level of
the smart dust.
Target new applications in a vast number of ICT fields suchas intelligent distributed sensing for health, safety-criticalsystems or environment monitoring.
The research should
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Molecular-Scale Devices and Systems
ICT-2009.8.7,a FET proactive challenge in FP7 Call 6
Budget: 15 M
Funding schemes:STREPs, IPs (at least 2 RT, >50%)
Contact: [email protected]@ec.europa.eu
Background document
- FET workshop Molecular-Scale Information Systemsftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/molecsc-ict-01_en.pdf
mailto:[email protected]:[email protected] -
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Molecular-Scale Devices and Systemsrationale and objectives
RationaleModern technology is racing forward with techniques forbuilding systems on atomic and molecular scales. In thenear future, devices will be assembled on an atom-by-
atom basis, and provide means for controlling theirdynamics and interactions with unprecedented precision.We can expect, as a result, a vast new range of ICTtechnologies.
General objectiveDevelop the foundations for radically new kinds of ICTdevices and systems based on atomic & molecularprecision, control and intrinsic properties.
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1. aim at developing physical implementations at thesingle-molecule level and with small assemblies ofmolecules for computation, sensing and storage to achieveproofs of concept and demonstrate working, scalable,
functional devices and systems.2. explore and develop supporting technologies for
molecular-scale information devices and systems such as :- measurement and control systems- simulation and modelling tools
3. Explore and demonstrate radically new characteristics andfunctionality of molecular-scale systems by investigatingnew non-charge based information techniquessupported by experimental implementations
Molecular-Scale Devices and Systemsresearch topics
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Molecular-Scale Devices and SystemsExpected Impact
Open new avenues and explore new possibilities in ICT
devices and technologies at the molecular scale.
Reach experimental demonstration of principle andfeasibility of such devices.
Offer new perspectives on potential applications with
concrete advantages (e.g. energy consumption, data andoperation integrity, speed,...)
The research should
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Brain Inspired ICT
ICT-2009.8.8,Call 6
Budget: 15 M
Funding schemes:STREPs (RT 1. or 2.), IPs (RT 1. and 2., >50%)
Contact: [email protected]@ec.europa.eu
Background document
-Neuro-Information Science workshop, Jan. 08ftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/nis-01_en.pdf
- nEUro-IT.net roadmap, 2006http://www.neuro-it.net/pdf_dateien/Roadmapv2.0.pdf
mailto:[email protected]://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/nis-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/nis-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/nis-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/nis-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/nis-01_en.pdfftp://ftp.cordis.europa.eu/pub/fp7/ict/docs/fet-proactive/nis-01_en.pdfmailto:[email protected] -
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Brain Inspired ICTrationale and objectives
Rationale
The way the brain works present many advantages overcurrent ICT systems:
Vastly more adaptable
Much lower power Fault tolerant
General objectiveto exploit advances in ICT and neuroscience in order:
1. to better understand how the brain processes informationand/or how it communicates with the peripheral nervoussystem,
2. to explore potential applications including healthcare
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1. Development ofmulti-scale models of informationprocessing and communication in the brain and/orPNS.
combining recordings/imaging of brain activity onseveral spatial and/or temporal scales
simultaneously.
should foster joint progress and synergy in ICT and
the bio- and neuro-sciences.
2. Hardware Implementations of Neural Circuits that
mimic information processing in the brain or PNS. implementations should demonstrate either the
emulation of significant functionality of a neuralsystem or performance of specified processing
tasks.
Brain Inspired ICTresearch topics
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Brain Inspired ICTExpected Impact
Improved design principles for bio-hybrid artefacts involvingengineered components that directly communicate with thenervous system.
Computational systems that emulate human skills or exploitunderlying principles for new forms of general purposecomputing.
Improved diagnosis/treatment of neurological disorders
Experimental data archived with sufficient appropriatemeta-data to facilitate re-use in another research contexts.
The research should
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http://cordis.europa.eu/fp7/ict/programme/fet_en.html
http://cordis.europa.eu/fp7/ict/programme/fet_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/fet_en.html -
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Conference Announcement
Why not join us for the
first ever FET Conference?
21-23 April 2009Prague
Please mark your diaries!