RZ_to_PICMET’04_03Aug2004 1 Ημερίδα ΕΚΤ Αθήνα-Θεσσαλονίκη, 13-14 Δεκ....
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Transcript of RZ_to_PICMET’04_03Aug2004 1 Ημερίδα ΕΚΤ Αθήνα-Θεσσαλονίκη, 13-14 Δεκ....
RZ_to_PICMET’04_03Aug2004 1
Ημερίδα ΕΚΤΑθήνα-Θεσσαλονίκη, 13-14 Δεκ. 2004
Το Πρόγραμμα Εργασίας 2005-06Τεχνολογίες της Κοινωνίας της
Πληροφορίας (IST)4η Πρόσκληση
Έραστος Φίλος
RZ_to_PICMET’04_03Aug2004 2
Στρατηγικοί στόχοι Εργαλεία Προϋπ/σμόςΝανοηλεκτρονική 80/20 74
Τεχνολογίες+συσκευές για ολοκλήρωση σε μικρο/νανο-κλίμακα 60/40 75
Προς ένα παγκόσμιο πλαίσιο αξιοπιστίας και ασφάλειας 70/30 63
Ευρυζωνικές επικοινωνίες για όλους 65/35 65
Κινητά + ασύρματα συστήματα + πλατφόρμες πέραν της 3ης γενιάς 65/35 138
Δικτυωμένα οπτοκοακουστικά συστήματα και οικιακές πλατφόρμες 80/20 63
Συστήματα γνώσεων με σημασιολογική βάση 80/20 112
Γνωστικά συστήματα 65/35 45
Έρευνα ICT για καινοτόμο διακυβέρνηση 50/50 46
Τεχνολογικά βελτιωμένη μάθηση 60/40 54
Ολοκληρωμένες βιοϊατρικές πληροφορίες για βελτίωση της υγείας 75/25 75
eSafety - Συνεργαζόμενα συστήματα για οδικές μεταφορές 60/40 82
Ολοκλήρωση ερευνητικής προσπάθειας ICT στη διευρημένη Ευρώπη 0/100 63
Μελλοντικές αναδυόμενες τεχνολογίες (FET) - προορατικές πρωτοβουλίες 100/0 54
4η Πρόσκληση IST1 Δεκεμβρίου 2004 - 22 Mαρτίου 2005
RZ_to_PICMET’04_03Aug2004 3
Towards an “all inclusive knowledge society”
IST today
• PC based …………………………………
• “Writing and reading” ….…………….….
• “text”-based information search ….……
• Low bandwidth, separate networks …..….
• Mobile telephony (voice) ………………..
• Micro scale ………………………………
• Silicon based ….…………………………
• eServices just emerging …………………
•Only 5% of global population on-line ….
“Ambient Intelligence” tomorrow
“Our surrounding” is the interface
Use all senses, intuitive
Context-based knowledge handling
Infinite bandwidth, convergence, …
Mobile/wireless full multimedia
Nano-scale
… + new materials
Wide adoption (eHealth, eLearning, …)
>70% of world-wide population on line
RZ_to_PICMET’04_03Aug2004 4
Nanoelectronics Process & device technologies
Focus on:– R&D activities (mid-term and long-term) on new materials
integration and the related innovative processes of non-conventional silicon-based devices (<45 nm)
IPs/STREPs with strong collaboration and & complementarity between academia & industry
– R&D activities (short-term and mid-term) & “assessment actions” on equipment & materials for the manufacturing of next generations of chips
IPs with strong collaboration between users & suppliers & significant involvement of SMEs
Reduce transistor size deep into the nano-scale &integration of a large number of new materials
Total€ 74 mnTotal
€ 74 mn
RZ_to_PICMET’04_03Aug2004 5
NanoelectronicsDesign technologies
Focus on:– Research for mastering the design complexity and increasing the
design productivity of systems-on-chip (SoCs) or systems-in-package (SiPs).
This involves work on application & design platforms, intellectual property reuse, verification, reconfigurable structures, SoC architectures & design flows
– Research for mastering the technological shortcomings of nanoelectronics (unreliable device behaviour, dispersion of circuit parameters, parasitic and interconnect effects, leakage currents, …).
– Research on “high value” design and test competencies such as analogue and mixed signal, high frequency and RF circuits, smart power and low power.
IPs/STREPs with involvement of users; participation of SMEs encouraged
Master the design of competitive systems-on-chip (SoCs)/systems-in-package (SiPs) with increasing functionality,
performance & complexity
RZ_to_PICMET’04_03Aug2004 6
NanoelectronicsComplementary measures
– “Access services” to provide industrial design tools and multi-project wafers for academic research and university education (SSAs).
– “Stimulation actions” to improve the quality of education in SoC design and increase the interest of students (IPs).
“Stimulation actions” and “access services” must be to a significant extent financed through own resources or receipts from third parties.
– “Use actions” to promote the integration and use of reconfigurable systems in SME products and in application/geographical areas where such technologies are insufficiently used (IPs).
– Prepare FP7 : (SSAs and CAs)• Promote joint work with national programmes and Eureka, • Support the work of the Technology Platform on nanoelectronics “ENIAC”, • Define future research agendas,• Identify emerging topics and research groups world-wide
Secure the necessary design skills, stimulate the use of technologies in areas where these are insufficiently used and prepare FP7
Secure the necessary design skills, stimulate the use of technologies in areas where these are insufficiently used and prepare FP7
RZ_to_PICMET’04_03Aug2004 7
• Heterogenous integrated systems
• Large area integration(plastics)
• Integration into different materials
Embedded Systems
Cogno (neuro,…
)
Bio- (life sciences,…
)
Nano-electronics, -photonics
SmartSystems Integrati
on
Architectures, Compilers, Software
Complex Networked SystemsFocus:
Micro-/nano-systems; heterogeneous technology
integration,Multi-component (sub-)systems
Smart Systems IntegrationConverging Technologies
Info-(comm
unication,
interfacing,….
Macro-M
icro-Nano
/ materials
Smart systems
RZ_to_PICMET’04_03Aug2004 8
A future beyond silicon-based electronics • Plastic (organic) micro-/nano-devices and micro-/nano-
systems• Very high density hybrid integration (e-grains, …)• Integrating nano-devices into various materials & surfaces• Organic molecules as interfaces – interfacing the living “cell”• Technologies for energy supply, for micro-machines, micro-
robots• Mixed technology micro-nanosystems
From nanotechnology to nanosystems • Towards smart products/systems• Mass storage, smart displays …
Micro-/nanosystems integrationTowards smart integrated systems
RZ_to_PICMET’04_03Aug2004 9
Technology & devices for micro-/nano-scale integration
Research Tasks
– Heterogeneous technologies & devices for “mixed” technology micro/nano systems (eg microfluidic/ICT/micro-nano, bio/ICT/micro-nano, chemical/ICT/micro-nano combined)
– Technology for very high density hybrid integration (towards e-grains, e-dust)
– Integrating micro/nano devices in various materials &on large surfaces
– Design & manufacturing of micro/nano systems based on “mixed” technology
– Validation & demonstration of networked micro/nano systems (eg for the environment, home, food, agriculture, healthcare)
– Roadmaps, specific co-ordination & support activities towards a research agenda
• Push limits of integrated micro/nano systems • Research on “mixed” technologies (eg micro-/nano, ICT & bio)• Integration for very high density
• Push limits of integrated micro/nano systems • Research on “mixed” technologies (eg micro-/nano, ICT & bio)• Integration for very high density € 75 mn€ 75 mn
RZ_to_PICMET’04_03Aug2004 10
Research focus• Security & dependability challenges arising from
complexity, ubiquity & autonomy• Resilience, self-healing, mobility, dynamic content and
volatile environments• Strategic & solid research on security and trust for new
societal applications• Interoperable content and digital rights management
Research focus• Security & dependability challenges arising from
complexity, ubiquity & autonomy• Resilience, self-healing, mobility, dynamic content and
volatile environments• Strategic & solid research on security and trust for new
societal applications• Interoperable content and digital rights management
Objectives
• Build on EU technical & scientific excellence on security, dependability & resilience
• Meet EU demands for privacy & trust• Strengthen the interplay between
research & policy
Towards a global dependability & security framework
€ 63 mn€ 63 mn
RZ_to_PICMET’04_03Aug2004 11
Towards a global dependability & security framework
Priority areas• Integrated frameworks & technologies for
resilience, dependability & security• Modelling/simulation techniques & synthetic
environments for interdependencies, recovery & continuity
• Technologies & architectures for secure computing and interoperable management and trustworthy sharing of digital assets
• Secure & interoperable biometrics • Security & privacy technologies &
architectures for future wireless & mobile scenarios
• Security assurance & certification of complex networked systems & infrastructures
• Interoperable content &digital rights management
InstrumentsIPs, NoEs, STREPs, CAs
IPs, NoEs, STREPs, CAs
IPs, STREPs
IPs, STREPs
STREPs
STREPs, SSAs
RZ_to_PICMET’04_03Aug2004 12
Broadband for all
• Optimised access technologies for a generalised introduction of broadband services in Europe and in less developed regions, and notably for the enlarged Europe in line with the eEurope objectives
• A European consolidated approach for standardised solutions, regulation, best practices and introduction of low-cost end user and access network equipment
To develop the network technologies & architectures allowing a generalised & affordable availability of
broadband access to European users
To develop the network technologies & architectures allowing a generalised & affordable availability of
broadband access to European users
RZ_to_PICMET’04_03Aug2004 13
Broadband for all
• Low-cost access & edge network equipment, including optical fibre, fixed wireless access, interactive broadcasting, satellite access, xDSL and power line networks.
• Network management, new protocols, inter-domain routing and traffic engineering for end-to-end delivery of new added-value services, with QoS and security.
• Service-enabling technologies and platforms based on convergence and interoperability of Telecom and Internet infrastructure. Resilience, multicasting, flexibility.
• Increased bandwidth capacity, in the access network as well as in the underlying optical core/metro network (including in particular optical burst and packet switching)
65 M€65 M€
RZ_to_PICMET’04_03Aug2004 14
Mobile & wireless systems beyond 3G
• A consolidated approach to serving mobile users with enablers for applications & services
• A consolidated European approach to technology, systems and services, notably for standards
• A consolidated approach regarding the use of spectrum and novel ways of optimising its usage when moving beyond 3G.
To realise the vision of “optimally connected anywhere, anytime" supported by all system levels from access methods and networks
to service platforms and services
To realise the vision of “optimally connected anywhere, anytime" supported by all system levels from access methods and networks
to service platforms and services
RZ_to_PICMET’04_03Aug2004 15
Mobile & wireless systems beyond 3G
• A generalised access network, including novel air interfaces, based on a common, flexible and seamless all IP infrastructure supporting scalability and mobility.
• Advanced resource management techniques allowing optimum usage of spectrum.
• Global mobility through different access networks, with end to end quality of service, including security.
• Advanced interworking access technologies. New architectures for composite, meshed, ad hoc networks…
RZ_to_PICMET’04_03Aug2004 16
Mobile & wireless systems beyond 3G
• Advanced technologies & architectures for reconfigurability
• Wireless network technologies for ad hoc, sensors & adaptive communication networks. Advanced signal & antenna processing, diversity techniques, higher frequencies
• Enabling technologies for mobile service creation and interoperability.
€ 138 mn€ 138 mn
RZ_to_PICMET’04_03Aug2004 17
To bring benefits to end-users through advanced audio-visual systems & applications in converged & interoperable environments
encompassing, broadcasting, communications, mobility, IP
To bring benefits to end-users through advanced audio-visual systems & applications in converged & interoperable environments
encompassing, broadcasting, communications, mobility, IP
At the technological level: • Guaranteed level of service delivery across complex
interoperable environments • Optimised use of underlying delivery network resources/QoS
characteristics • Availability of high added value scalable multimedia contents
and programmes and seamless device connectivity
At the market level: • To favour the emergence of horizontal competitive markets
across the value chain: – to lower market entry barriers, – to enable viable business models and to open up new markets
Networked audio-visual systems &home platforms
RZ_to_PICMET’04_03Aug2004 18
Structure
Content handling &protection (IP,NoE,STREP)
Content Creation (not part of SO)
Network delivery &interoperability (IP,NoE)
Terminal rendering &adaptability (IP,NoE,STREP)
DR
M
Scala
bilit
y
Hom
e N
etw
ork
s
QoS
3D TV
(STREP)
Acc
Measures
(CA,SSA)
SYSTEM APPROACH
RZ_to_PICMET’04_03Aug2004 19
Semantic-based knowledge & content systems
• Develop semantic-based and context-aware systems to acquire, organise, personalise, share and use the knowledge embedded in web and multimedia content
– maximise automation of the knowledge lifecycle
• Achieve semantic interoperability between heterogeneous information resources and services
• Pioneer intelligent content, which is self-describing, adaptive to context and user needs, and exhibits a seamless interaction with its surroundings and the user1. knowledge acquisition and modelling2. knowledge sharing and use3. intelligent content
Ambitious proposals may well cut across lines
€ 112 mn€ 112 mn
RZ_to_PICMET’04_03Aug2004 20
1. Knowledge acquisition and modelling
• Capture knowledge from raw, multimedia & web content(“add semantics”)
– Turn today’s poorly structured information into computer processable knowledge
• Components and sub-systems aimed at “content harvesting, search & categorisation”, for all types of digital content
• Interoperable ontologies for semantic webs, ontology maintenance and evolution, data-driven approaches
• Not full “understanding”, as much “semantics” and “content annotation / interpretation” as is takes …
• Approx € 35-40 mn funding
RZ_to_PICMET’04_03Aug2004 21
2. Knowledge sharing and reuse
• From information to actionable meaning (“exploit semantics”)– data integration as well as application integration
– inferencing and reasoning over networked information
• Beyond static knowledge– modelling of dynamic knowledge: from data through
processes and workflows to semantic unification
• Semantic interoperability across organisations: shared knowledge spaces, collaborative environments– semantic Web Services as well as metadata based
content access and management
• Integrative research aimed at showcases for information-bound sectors: (e-)business, manufacturing, new media, e-science
• Approx. € 50 mn funding
RZ_to_PICMET’04_03Aug2004 22
3. Intelligent content
• Pioneering path beyond today’s content:– Knowledge is created while content is created
– Atomic content objects embody content proper, metadata / semantic descriptors, together with interface with “ambient intelligence”
• Self-describing, context aware, reactive to stimuli
• Communicate with user, digital and physical surroundings
• Aggregate to create compound objects and rich content services
• Unifying framework(s), proof-of-the-concept methods & tools for:
– “automated” creation, management, personalisation …
– different content types, in different usage scenarios
• commercial, corporate, educational, scientific
• Approx. € 30-35 mn funding
RZ_to_PICMET’04_03Aug2004 23
• Workshops & information events• Call info session, Luxembourg, 20 January 2005
• Call background material• available as per 13 December 2004
• http://www.cordis.lu/ist/directorate_e/kmcc/index.htm
• Pre-proposal feedback• email free-text outline (2-3 pages max) to
Semantic-based knowledge & content systems
RZ_to_PICMET’04_03Aug2004 24
Cognitive systems
Objective
To develop artificial systems that:
• can interpret data arising from real-world events and processes (mainly in the form of data-streams from sensors of all types and in particular from visual and/or audio sources)
• acquire situated knowledge of their environment
• act, make or suggest decisions and communicate with people on human terms, thereby supporting
them in performing complex tasks
RZ_to_PICMET’04_03Aug2004 25
Focus
• on research into ways of endowing artificial systems with high-level cognitive capabilities (typically: perception, understanding, learning, knowledge representation and deliberation)
• thus advancing enabling technologies (for scene interpretation, natural language understanding, automated reasoning and problem-solving, robotics and automation) that are relevant for dealing with complex real-world systems.
Research aims at systems that develop their reasoning, planning and communication faculties through grounding in interactive and collaborative environments, which are part of, or connected to the real world.
Research aims at systems that develop their reasoning, planning and communication faculties through grounding in interactive and collaborative environments, which are part of, or connected to the real world.
Cognitive systems
RZ_to_PICMET’04_03Aug2004 26
(Some) challenges:
• To develop and explore models and architectures for artificial cognitive systems;
• to understand and improve cognitive capabilities in artefacts and to explore new methods of integrating these in complete artificial systems;
• to meet demanding application requirements for autonomous or semi-autonomous systems, preferably in industrial inspection and monitoring, complex systems control, medicine or the life sciences.
In a longer term perspective, research will explore models for cognitive traits such as affect, consciousness or theory of
mind.
In a longer term perspective, research will explore models for cognitive traits such as affect, consciousness or theory of
mind.
Main characteristic of work in this area: INTERDISCIPLINARITY
Cognitive systems
RZ_to_PICMET’04_03Aug2004 27
IP
Time
Integration along the innovation cycle
Best practice, Training
Take-up, trials
Industry driven research
Technology Adoption
Basic research
RZ_to_PICMET’04_03Aug2004 28
Future & Emerging Technologies
• Exploring new paradigms and visions at the limits of knowledge
– A ‘nursery’ of new research ideas– A pathfinder of long term, high-risk
but high potential impact research– A catalyst for new multi-
disciplinary S&T communities
• Open scheme - Proactive Initiatives
FET web page: www.cordis.lu/ist/fet/home.htmlFET web page: www.cordis.lu/ist/fet/home.html
RZ_to_PICMET’04_03Aug2004 29
FET Open & Proactive
• FET Open Scheme Budget: ~€ 60 mn– STREPs, Co-ordination Actions (CAs), Specific Support Actions (SSAs)
– Continuously open until 20 Sep 2005 (for CAs, SSAs and short STREPs)
– Cut-off dates (for short STREP proposals, CAs & SSAs):5 Jan 2005, 10 May 2005 and 20 Sep 2005
• FET Proactive Initiatives Budget ~ € 70 mn– IST Call 4 – Budget: ~ € 60 mn
• Advanced Computing Architectures
• Presence and Interaction in Mixed Reality Environments
• Situated and Autonomic Communications
– IST Call 5 (opening 17 May, closure 21 Sep 2005) – Budget: ~ € 10 mn• Simulating Emergent Properties in Complex Systems
RZ_to_PICMET’04_03Aug2004 30
FET Proactive:Advanced Computing
Architectures
• Scope:– From small wireless systems to large networked servers
• Objectives: – Increase performance of computing engines by 2 orders of
magnitude while reducing power consumption– Portable compiler and operating system technology for
high performance and code optimisation– Devise building blocks for integration in heterogeneous
platforms• Focus:
– Processor architectures– Scalable multiple processor system architectures– Re-targetable optimisation– System architecture tools– Highly flexible Operating Systems
• Instruments– IPs: Industrial participation is sought to link with application
requirements– NoE: research agenda, benchmarking & testing
• Scope:– From small wireless systems to large networked servers
• Objectives: – Increase performance of computing engines by 2 orders of
magnitude while reducing power consumption– Portable compiler and operating system technology for
high performance and code optimisation– Devise building blocks for integration in heterogeneous
platforms• Focus:
– Processor architectures– Scalable multiple processor system architectures– Re-targetable optimisation– System architecture tools– Highly flexible Operating Systems
• Instruments– IPs: Industrial participation is sought to link with application
requirements– NoE: research agenda, benchmarking & testing
Research in computing architectures, compilers and operating systemsto address AmI application requirements in 10+ year timeframe
Research in computing architectures, compilers and operating systemsto address AmI application requirements in 10+ year timeframe
RZ_to_PICMET’04_03Aug2004 31
FET Proactive:Presence & Interaction in Mixed Reality
Environments
• Objective: – To further the understanding of presence in order to create
novel ICT systems that match human cognitive and affective capacities and recreate the experiences of presence and interaction in mixed reality environments
• Focus areas:– Understanding different forms of presence
(i.e., aspects of perception, interaction, emotions and affect)
– Design and development of essential ICT building blocks capturing different forms of Presence and based on a range of relevant HW and SW ICT technologies (rendering, 3D representation, tracking, haptics, light control, etc.)
– Building novel systems supporting presence & interaction(open system architectures integrating the essential building blocks, open source authoring tools, open APIs)
• Challenging and visionary scenarios• Instruments:
– Integrated Projects
• Objective: – To further the understanding of presence in order to create
novel ICT systems that match human cognitive and affective capacities and recreate the experiences of presence and interaction in mixed reality environments
• Focus areas:– Understanding different forms of presence
(i.e., aspects of perception, interaction, emotions and affect)
– Design and development of essential ICT building blocks capturing different forms of Presence and based on a range of relevant HW and SW ICT technologies (rendering, 3D representation, tracking, haptics, light control, etc.)
– Building novel systems supporting presence & interaction(open system architectures integrating the essential building blocks, open source authoring tools, open APIs)
• Challenging and visionary scenarios• Instruments:
– Integrated Projects
Convey the sense of being there and of participating, acting, doing, influencing and changing things there
Convey the sense of being there and of participating, acting, doing, influencing and changing things there
RZ_to_PICMET’04_03Aug2004 32
FET Proactive:Situated & autonomic communications
• Objectives: – To define a self-organising communication network concept and
technology that can be situated in multiple and dynamic contexts• ranging from sensor networks to virtual networks of humans
• defining decentralised optimisation strategies
• benefiting from cross-layer or non-layered approaches
– To study social/commercial impact of future communication paradigms on society & economy
• to develop networking technologies (hardware/software combinations) that can evolve and create maximal synergy with the other types of non-technological networks that constitute their context
• Instruments:– Integrated Projects and Networks of Excellence
• Objectives: – To define a self-organising communication network concept and
technology that can be situated in multiple and dynamic contexts• ranging from sensor networks to virtual networks of humans
• defining decentralised optimisation strategies
• benefiting from cross-layer or non-layered approaches
– To study social/commercial impact of future communication paradigms on society & economy
• to develop networking technologies (hardware/software combinations) that can evolve and create maximal synergy with the other types of non-technological networks that constitute their context
• Instruments:– Integrated Projects and Networks of Excellence
New paradigms for distributed and self-organising communication and networking systems able to adapt to a changing context
New paradigms for distributed and self-organising communication and networking systems able to adapt to a changing context
RZ_to_PICMET’04_03Aug2004 33
IST IPs
FET IPs
IST & FET use of instruments
Industrial exploitatio
n
Siz
e /
level of
inte
gra
tion
Fundamental research
Basicresearch
Industry-driven
research
IST NoEs
FET NoEs
ISTSTREPs
FETSTREPs
RZ_to_PICMET’04_03Aug2004 34
For further information
Web:
Information Society Technologies (IST):http://www.cordis.lu/ist
FAQ:http://www.cordis.lu/fp6/faq_ist_call4.htm
E-mail:
Web:
Information Society Technologies (IST):http://www.cordis.lu/ist
FAQ:http://www.cordis.lu/fp6/faq_ist_call4.htm
E-mail: