The Role of Taxonomy and Ontology in Semantic Layers - Heather Hedden.pdf
20111026 FI-PPP upcoming calls
1. FI-PPP Proposers day
FI-PPP Proposers day
26 October 2011
26 October 2011
uropean Commission
nformation Society and Media Directorate General
2. Ca
FP7 ICT Programme Structure De ll 8
ad
lin
e :1
ICT for socio-economic challenges 7/1
12 /12
1- gets
01 d
P2 s b u ~10%
260 M€, 11% 280 M€, 12% 140 M€, 6% 100 M€, 4% Ca
W ar ~9%
e De ll 9
2y 6. ICT for ad
5. ICT for 8. ICT for lin
Lower- 7. ICT for e :1
Health, 7/4
Manufac. & Learning &
Ageing, Carbon /12
Enterprise Cultural
Inclusion Economy
Resources
1. Network and & Gov.
Fa 261 M€, 11%
Service 625 M€, 26% Gr cto
Infrastructures En e e n ry
Basic ICT technologies &
er Ca of
Technologies (FET)
gy
Future & Emerging
Fu Ef rP th
2. Cognitive tu fi c PP e
re Fu
ien
infrastructures
PP tu
Systems and In tB re
te u il
Ps
PP
Robotics 155 M€, 6% rn di n
De P
et ad
PP gs lin
3. Component P PP e:
2/1
FI P 2/1
and 402 M€, 17%
PP 1
PD
Systems ea
dli
ne
4. Digital 165 M€, 7% :2
9/1
Content and 0/2
01
Languages 2
International cooperation, Cooperation in an enlarged Europe, Pre-commercial Procurement
••• 2
3. WP2011-12
Challenge 1, except FI-PPP Objectives
Call 7 Call 7
70 MEuro 30 MEuro
The Future Internet
1.5 Networked Media 1.3 Internet-
and Search Systems connected objects
Call 8
1.4 Trustworthy ICT
Call 8 70 MEuro
80 MEuro 1.2 Cloud Computing, Internet of Services
and Advanced Software Engineering
Call 8
160 MEuro
1.1 Future Networks
Call 8
Call 7 1.6 Future Internet Research 25 MEuro
20 MEuro and Experimentation (FIRE)
4. Objective 1.1
Future Networks
a) Wireless and mobile broadband Systems
• LTE-Advanced and post-LTE Systems
• Flexible and efficient spectrum usage
• Novel radio network topologies
• Integration radio and fibre
b) High capacity end-to-end infrastructure technologies
• Ubiquitous fast broadband access
• Ultra high capacity all-optical networks
• Functional split between circuit, flow
and packet switching
• System perspective for photonic components
and sub-systems undertaken in Obj 3.5
(Core and disruptive photonic technologies)
5. Objective 1.1
Future Networks
c) Novel Internet architectures, management and
operation frameworks
• Future Internet architectures
• Visionary multi-disciplinary research on new
architectures
• Network management and operation frameworks
d) Flexible, resilient, broadband satellite communication
• Innovative system architectures and technologies
• Novel technologies and architectures for resilient and
flexible networks
e) CSA and NoE
Obj 1.1 Instruments: IP, STREP, NoE, CSA
Budget: 160 M€
6. Objective 1.2
Cloud Comp, IoS and Adv Software Engineering
a) Cloud computing
• Management of cloud resources
• Technologies for infrastructure virtualisation
• Interoperability amongst different clouds
• Seamless support of mobile, context-aware applications
• Energy efficiency and sustainability
• Integration of computing and networking environments
• Open Source implementations of a software stack for Clouds
b) Internet of Services
• Service engineering principles, methods and tools
• Integration of real and virtual worlds
• Massive scalability, self-management, verification,
validation and fault localisation for services
• Life cycle management
7. Objective 1.2
Cloud Comp, IoS and Adv Software Engineering
c) Advanced software engineering
• Advanced engineering
• Quality measure and assurance techniques
• Management of non-functional requirements
• Tools and methods for community-based and open
source software development, composition and life
cycle management
d) Coordination and support actions
• Standardization and collaboration
• Open source development model
• Cooperation with Japan
Obj 1.2 Instruments: IP, STREP, CSA
Budget: 70 M€
8. Objective 1.4
Trustworthy ICT
a) Heterogeneous networked, service and computing
environments
• Trustworthy architectures and protocols
• A trustworthy Future Internet
• Virtualisation and other techniques to provide protection,
assurance and integrity
• Metrics and tools for quantitative security assessment
• Enabling technologies
b) Trust, eIdentity and Privacy
management infrastructures
• Trust architectures, protocols and models
for trust assurance
• Protocols for privacy infrastructures
• Management of identity claims
9. Objective 1.4
Trustworthy ICT
c) Data policy, governance and socio-economic
ecosystems
• Management and governance frameworks for trust
and security policies; Technology supported socio-
economic frameworks.
• Multi-polar security governance; Tools for trust
measurement
d) Networking and Coordination Activities
• Stimulating and organising interplay technology-law-
society-economy
• Standards, certification, best practices
• Coordination national RTD activities
Obj 1.4 Instruments: IP, STREP, NoE, CSA
Budget: 80 M€
10. Objective 1.6
Future Internet Research and Experimentation
b) FIRE Federation
• Implement a high level federation framework for all FIRE facilities
• Making Federation self-sustainable towards 2015
• Set common tools
• Openness
c) FIRE Federation
• Experimentally-driven research of Future Internet
• Visionary R&D subjects
• Innovative usage of the FIRE facility(-ies)
e) FIRE Coordination and Support Action
• International and EU-wide cooperation with related stakeholders
• Exploiting synergies, developing standards, identifying socio-
economic requirements, analysing impacts, and creating
awareness
Obj 1.6 Instruments: IP, STREP, CSA
Budget: 25 M€
11. Obj 1.2 What are we looking for?
New research directions
• Preservation of privacy and • Service composition tools
security • Applications for Internet
of Things • Handling vast amount of data
• Architectures for decentralised
secure services • Services for non-human • Lifecycle of digital assets
users • Fully mobile services
• Dependability as inherent
attribute • Machine to machine • Critical mass of services on
• New security models Internet
• Public test suites for web apps
Interaction IoS and IoT • Participation in standardization
Internet based on
Privacy, Security and Trust User-Centric Internet
Gaps and challenges
New Service Environments New Role for Services
• Global scale service • Scalable infrastructures • Evolution of legacy
platforms
• Smart energy • Interoperability and pervasiveness
• Manageability management
• New metrics for costs, risks,
• Design for virtualization • More resilient and dependability
adaptable clouds
• Software engineering for web
http://cordis.europa.eu/fp7/ict/ssai/docs/softwareconsultationreportfeb2011.pdf
12. Obj 1.2 What are we looking for?
No repetition of existing projects
Call 5
• Many projects “in the cloud”
• Less coverage of software engineering
+ FI-PPP, other ICT, ITEA, Celtic, national
http://cordis.europa.eu/fp7/ict/ssai/projects_en.html
13. Obj 1.2 What are we looking for?
Considering controversial aspects
• For instance, major cloud challenges
– Interoperability
• Lock-in risks
• Portability of data, security settings
– Privacy & Legal
• Where is my data? Whose law applies? Who can
access data?
– Governance, control
• No control of licensing terms, SLA,
use of legacy application
– Security, Dependability
• Data, outages
– ...
http://cordis.europa.eu/fp7/ict/ssai/docs/cloud-report-final.pdf
http://cordis.europa.eu/fp7/ict/security/docs/the-cloud-understanding-security-privacy-trust-challenges-2010_en.pdf
14. Obj 1.2 What are we looking for?
Taking into account key European values
• For instance, areas of the EU policy
framework which touch on Cloud Computing
include:
– Data protection
– Privacy and Security
– Consumer protection
– Standardisation, Interoperability and Portability
– Industrial Policy
– Innovation and RTD Policy
– International Policy
Can Europe become
cloud friendly and cloud active?
15. Obj 1.2 What are we looking for?
Expected industrial impact
• Research projects often live in their
own world
• Exploitation is often limited to
transfer of results to ‘the next project’
• Same thing happens in ‘the next
project’
• Creation of a ‘shadow world’
Taking research results out of the
research world into the real world
16. Obj 1.2 What are we looking for?
User involvement
18. Future Internet Public Private Partnership - Programme Architecture
Call 1 Call 2 Call 3
CONCORD: Programme Facilitation & Support
INFINITY: Capacity Building & Infrastructure SME Innovation
FINEST
Obj 1.9 Capacity Building
INSTANT MOBILITY
USE CASES
SMARTAGRIFOOD
Obj 1.8 Use Case Trials
FINSENY 3rd Call
Up to 5 Trials Use Case
SAFECITY
Expansion
OUTSMART Phase
Obj 1.8 Use Case Trials
FI-CONTENT
ENVIROFI
FI-WARE Technology Foundation TF Continuation
2010 2011 2012 2013 2014 2015
Phase 1 Phase 2 Phase 3
19. Phase 1 - Use cases & trials
1. A comprehensive set of detailed technical,
functional and non-functional specifications
for an experimentation in the given use case,
including the characterisation of use case
scenarios.
2. Development of domain-specific capabilities
and conceptual prototypes demonstrating
critical technological solutions and the overall
feasibility of the approach suggested for phase 2.
3. A phase 2 implementation approach, including
a detailed analysis of the potential
experimentation infrastructures, and a plan for
user community building.
20. Phase 2 - Use cases & trials
1. Working experimentation sites building upon common
components and Generic Enablers as provided under
the Core Platform Objective complemented by the
identified use case specific capabilities;
2. Selected test applications implemented on these
experimentation sites;
3. Validation of the openness and versatility of the Core
Platform and its soft ware development kit, through
implementation of mixed use case scenarios originating
from more than one use case project;
4. A detailed plan for how to move into phase 3,
including detailed plans for the large scale expansion of
platform usage facilitated by local and regional
stakeholders including SMEs.
21. Phase 1 - Infrastructure support
• The identification of existing and future
advanced test and experimental
infrastructures across Europe and the
associated technological constraints.
• The maintenance of a web-based repository of
available infrastructures potentially engaged in
trials and of their key functional characteristics;
• The identification of the usage-related
operational constraints derived from these
infrastructures;
22. Phase 2 - Infrastructure support
• The integration of some of the identified
infrastructures relevant to support or complement the
early trials of phase 2.
• The necessary adaptation, upgrade and validation of
the infrastructures in view of supporting usage
requirements stemming from the experimented use
cases and a mix of those.
• The assembly of a pan-European federation of test
and experimental infrastructures satisfying the
interoperability requirements, equipped with the
functionality of the core platform by the start of phase 3
to support the validation through large scale trials in
representative environments.
23. Phase 3 in preparation
The current work programme provides guidance on Phase 3
• Provide and maintain a stable infrastructure for the large scale
trials, expand the core platform, the use case specific
functionalities and their demand-driven instantiations.
• Run large scale trials populated with a variety of applications
challenging the overall platform, and proving the viability of the
concept.
• Prove the value of services mash-up across use cases as the
bases for a new dimension of services and application.
• Involve SMEs at large as developers and providers of services
and applications.
25. For more information
FP7
FP7
http://cordis.europa.eu/fp7/
http://cordis.europa.eu/fp7/
http://cordis.europa.eu/fp7/ict/
http://cordis.europa.eu/fp7/ict/
Future Internet
Future Internet
http://ec.europa.eu/foi
http://ec.europa.eu/foi
http://www.future-internet.eu/
http://www.future-internet.eu/
This presentation
This presentation
http://www.slideshare.net/azwegers
http://www.slideshare.net/azwegers