Presentation held by Mr. Vladimir Ristevski as a part of the WINS ICT Call7 Session at the 8th SEEITA and 7th MASIT Open Days Conference, 14th-15th October, 2010
9. Calls launched in 2010
Call Open Close
FoF2/EeB2/GC2 July 2010 2 Dec 2010
Future Internet1 July 2010 2 Dec 2010
FET Flagship July 2010 2 Dec 2010
EU-Russia July 2010 14 Sept 2010
ICT Call 7 Sept 2010 18 Jan 2011
EU-Brazil Sept 2010 18 Jan 2011
FET Open July 2010
10. WP2011-2012: budget and schedule
• WP2011-2012: €2,422 million
• Year 2011 (calls +): €1,182.0 million
• Call 7: €783.5 million
• Call 7 publication: 28 September 2010
• Call 7 deadline: 18 January 2011
• Project negotiations:April/May 2011
11. FP7/ICT 2011-2012
Programme Structure
ICT for socio-economic challenges
~10%
~11% ~12%
~9% ~6% ~4%
5. ICT for 6. ICT for
7. ICT for 8. ICT for
Health, Lower-
Manufac. & Learning &
Ageing, Carbon
~ budget shares Enterprise Cultural
Inclusion Economy
Resources
1. Network and & Gov.
Service ~26% ~11%
Basic ICT technologies &
Infrastructures
Technologies (FET)
Future & Emerging
2. Cognitive
infrastructures
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
Draft, subject to final approval
••• 11
12. ICT Call 7
• Call identifier: FP7-ICT-2011-7
• Date of publication1: 28 September
2010
• Deadline2: 18 January 2011, at
17:00.00 Brussels local time
• Indicative budget: EUR 778.5
million
• Topics called:
13. Challenge 1: pervasive and trusted
network & service infrastructures
– Future Networks (Obj.1.1)
– Cloud Computing, Internet of Services and Advanced Software (Obj.1.2)
– Internet-Connected Objects (Obj.1.3) Call 7
– Trustworthy ICT (Obj.1.4)
– Networked Media and Search Systems (Obj.1.5) Call 7
– Future Internet Research and Experimentation (Obj.1.6) Call 7
– Future Internet Public Private Partnership (Obj. 1.7 to Obj. 1.10)
14. Introducing Objective 1.3: Internet –
connected objects
• Objective 1.3 in the context of Challenge 1
a) Objective’s contributions to the “Network and Service Infrastructures”
b) Towards cooperative objects in Future Internet:
• Beyond IoT for business: architecture and S&T foundations for cooperative smart objects
(enterprises and stakeholders)
• Towards integration and decentralized intelligence
c) Manage an unprecedented volume of new information to improve
citizens’ quality of life and organisation efficiencies
d) Maintain competitive Europe’s position on global market
• Target outcomes
a) An open networked architecture
b) Adaptive software supporting data acquisition
c) Coordination and support actions
15. Objective 1.5 Networked Media & Search
Systems
Target outcome
• a) Digital Media Delivery Platforms
• b) E2E Immersive and Interactive Media
Technologies
• c) Multimedia Search
• d) Coordination and Support Actions
16. Objective 1.6 FIRE Future Internet
Research & Experimentation
• FIRE Facility
• FIRE Experimentation
• FIRE Science
17. Future Internet Public Private
Partnership (Obj. 1.7 to Obj. 1.10)
• 1.7 - Technology Foundation:
FI Core Platform
• 1.8 - Use Case Scenarios and
Early Trials
• 1.9 - Capacity Building &
Infrastructure Support
• 1.10 - Programme Facilitation
and Support
18. 2.1 Cognitive Systems and Robotics
• Target (a): Robotic systems
operating in real-world
environments – IPs and STREPs
• Target (d): Fostering
communication and co-operation
between robotics and cognitive
systems research communities -
CA
19. Objective 3.2: Smart Components &
Smart Systems Integration
Target outcomes:
1. Future Smart Components and Smart Systems
Call 7 – 38 M€
2. Micro-Nano Bio Systems (MNBS)
Call 8 - 39 M€
3. Coordination and Support Actions
Call 7 – 3 M€
••• 19
20. Objective 3.3 Embedded Systems,
Monitoring and Control
• Design of advanced heterogeneous
Embedded Systems (EmS)
• Monitoring & Control (M&C) techniques
dealing with large number of distributed
sensory data
• Engineering of System-of-Systems (SoS)
addressing societal needs
• Facilitate international cooperation
21. Objective 3.4 Computing Systems
a) Parallel & Concurrent Computing
– Multicore, multichip (beyond single-chip)
– Parallel/concurrent software & tools
b) Virtualisation
– Heterogeneous multicore systems
c) Customisation
– Reconfigurable architectures
– Multicore on single-chip
– Tool-chains
– System modelling & simulation
d) Architecture & Technology
– 3D stacking
– Alternative computation models
e) International collaboration
22. Objective 3.5 “Core and Disruptive
Photonics Technologies”
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
Cross-cutting technology:
5. Photonics integration platforms
b) Disruptive photonic technologies
c) ERANET-Plus action
d) Pre-Commercial Procurement action
e) Coordination and Support actions,
including ERA-NET action
••• 22
23. 3.6: Flexible, Organic and Large Area
Electronics and Photonics
a) OLAE Technology and components
advanced OLAE technology, device concepts, processes
and materials considering the full value chain
b) OLAE systems and applications
Demo of advanced technology and the integration
of components through new or improved systems and devices
c) ERANET-Plus action
d) Coordination and Support actions
••• 23
24. Challenge 4 “Technologies for
Digital Content & Languages”
2 objectives, 2 calls:
• Objective 4.2. Language Technologies-> Call 7
open Sept 2010, close Jan 2011, 50M
• Objective 4.1. SME initiative on Digital Content
and Languages -> Call FP7-ICT-2011-SME-
DCL
open Feb 2011, close Sept 2011, 35M
25. Challenge 5
“ICT FOR HEALTH, AGEING WELL,
INCLUSION AND GOVERNANCE”
• Objective 5.1 –
Personal Health Systems (PHS)
• Objectives 5.2: “Virtual
Physiological Human”
26. Objective 5.1 –
Personal Health Systems (PHS)
• PHS for remote management of diseases,
treatment and rehabilitation
• Intelligent systems for the analysis of
multi-parametric data
• Coordination and Support Action
• €59.5 M for (a) + (b)
27. Objective 5.2 –
Virtual Physiological Human
• Patient-specific predictive computer based
models and simulation
• ICT tools, services and infrastructures to obtain
more elaborate and reusable multi-scale models
and larger repositories
• RTD roadmap preparing the ground for a
“Digital Patient” challenge
• Early demonstrators and proof of concept of
digital representations of health status
28. Objective 5.3:
“Patient Guidance Services (PGS), safety
and healthcare record information reuse ”
• Patient guidance services for
personalised management of health
status
• Reuse of Clinical Data for clinical
research and epidemiology
• Governance
• Pre-commercial procurement
29. Obj.5.4:
ICT for Ageing and Wellbeing
• Service and social robotics systems
for ageing well
• Smart and self-adaptive
environments prolonging
independent living
• Coordination Frameworks
30. Obj.5.5:
ICT for Smart and Personalised
Inclusion
• Tools and infrastructures for
mainstream accessibility
• Intelligent and social
computing
• Brain-Neural Computer
Interfaces
• E-Inclusion; E-accessibility
31. Objective 5.6
ICT solutions for governance
and policy modelling
• a) ICT solutions for governance
and policy modelling
• b) Road mapping and
Networking
International co-operation
32. Objective 6.2 ICT Systems for energy
efficiency
• Tools to optimise energy
performance
• To support the Green Digital
Charter
33. 6.4 ICT for Energy-efficient Buildings
and spaces of public use
• Building Management Systems covering
both inside and outside spaces of public
use
• Extend the notion of energy-positive
performance from homes and buildings to
large areas including neighbourhoods and
extended urban/rural communities
34. Objective 6.6:
Low carbon multi-modal mobility and
freight transport
• Strengthened position of Europe's logistics and
freight industries in the marketplace for low-
carbon products and services
• Significant improvements in efficiency and
environmental friendliness of mobility and
transport in Europe; target: 25% reduction in
GHG emissions in transport
• Full integration of intelligent cargo items into the
multi-modal transport infrastructure, with special
emphasis on urban multi-modal logistics
• Widening the market for new ICT-based mobility
and transport services in Europe and worldwide.
35. Objective 6.8
ICT for Fully Electric Vehicles
• Energy/Power Storage Systems
• Architectures for Energy,
Communication and Thermal
Management
• Vehicle-to-grid Interface (V2G)
• Vehicle Stability Control
36. The Factories of the Future
ICT Objectives 7.3 and 7.4
• Objective 7.3
Virtual Factories & Enterprises
• Objective 7.4: Digital Factories
Manufacturing design &
product lifecycle management