European Technology Platforms in the ICT area - PowerPoint PPT Presentation

1 / 20
About This Presentation
Title:

European Technology Platforms in the ICT area

Description:

European Nanoelectronics Initiative Advisory Council (ENIAC) ... Joint Technology Initiatives ARTEMIS & ENIAC ... ENIAC Nanoelectronics ... – PowerPoint PPT presentation

Number of Views:59
Avg rating:3.0/5.0
Slides: 21
Provided by: benoi239
Category:

less

Transcript and Presenter's Notes

Title: European Technology Platforms in the ICT area


1
European Technology Platforms in the ICT area
  • Joint Technology Initiatives ARTEMIS ENIAC

European Commission DG INFSO Belgrade 20/21
February 2008
2
ETP What is it?
  • An ETP
  • brings together the main stakeholders (industry,
    academia, funding bodies,..) in an RTD field
  • identifies common RTD goals, time frames and
    action plans
  • develops and helps implement an agenda to achieve
    these goals
  • agenda addresses technology non-technology
    barriers

3
Example barriers
  • Research challenges/roadblocks
  • How research is organised
  • Outdated regulations
  • Lack of common technical standards or a need for
    new ones
  • Lack of funding/finance
  • Disinclination to accept/take-up new technologies
  • Shortage of skills and training

4
Strategic Research Agenda
  • Sets out RTD goals, time frames and research
    approaches and actions
  • Identifies means to overcome barriers to the
    development and use of new technologies.
  • e.g. regulations, standards, funding, skills and
    training
  • ETP stakeholders agree to support their strategic
    research agenda financially and to monitor its
    implementation
  • Key input to research priorities setting
  • For industry and academia
  • For public support to research (EU level and MSs)

5
What are the benefits from ETPs? (1/2)
  • For the stakeholders industry and academia
  • pool resources to overcome technology roadblocks
  • build partnerships to share risk
  • speed up innovation, by knowledge sharing
  • build consensus around measures needed to turn
    research results into marketable products and
    services

6
What are the benefits from ETPs? (2/2)
  • For the European economy and society
  • optimise the return on public and private
    research investment
  • boost industrial competitiveness and meet
    societys needs
  • attract higher research investment in Europe

7
The Commission a facilitator
  • European Commission can
  • provide advice, e.g. on the European dimension of
    the work
  • help in establishing links between ETPs and
    national RD programmes in the Member States.
  • The European Commission does not
  • create ETPs solely to get advice
  • earmark EU research budgets for ETPs
  • give members of ETP any form of privileged
    access to the EU funding

8
Nine ETPs in the ICT area
  • European Nanoelectronics Initiative Advisory
    Council (ENIAC)
  • Consolidated European Photonics Research
    Initiative (Photonics21)
  • Advanced RD on Embedded Intelligent Systems
    (ARTEMIS)
  • European Platform on Smart Systems Integration
    (EPoSS)
  • Mobile and wireless communications technology
    (eMobility)
  • Integral Satcom Initiative (ISI)
  • Networked and electronic media platform (NEM)
  • Networked European Software and Services
    Initiative (NESSI)
  • European Robotics Platform (EUROP)

9
ETPs in nanoelectronics, photonics, microsystems
and embedded systems (1/2)
  • Nanoelectronics (ENIAC, www.eniac.eu) The
    semiconductor industry and its suppliers
    represented a worldwide sales value of US 340
    billion in 2005 the sector supported a global
    market of more than US 1.3 trillion in terms of
    electronic systems and an estimated value of US
    6 trillion in services. Semiconductor devices are
    the key components for applications ranging from
    transportation to health care, and from general
    broadcasting to electronic banking.
  • Photonics (Photonics21, www.photonics21.org) The
    entry into the photon century requires a shared
    European initiative that enables industry and
    research to uphold their outstanding initiatives
    to explore the nearly limitless future
    applications of light. Many important European
    industries, from chip manufacturing and lighting,
    health care and life-sciences, to space, defence
    and the transport and automotive sectors rely on
    the same fundamental mastery of light.

10
ETPs in nanoelectronics, photonics, microsystems
and embedded systems (2/2)
  • Embedded Intelligent Systems (ARTEMIS,
    www.artemis-office.org) With the constant
    evolution of electronics and software
    technologies, there will be more and more
    Embedded Systems integrated into products and
    infrastructure. Already today 90 of computing
    devices are in Embedded Systems. Moreover, the
    value added to the final product by embedded
    software is often orders of magnitude higher than
    the cost of the embedded devices themselves. For
    example, 20 of the value of each car today is
    due to embedded electronics.
  • Smart Systems Integration (EPoSS,
    www.smart-systems-integration.org) Smaller and
    smarter by trans-disciplinarity will be the key
    issue in the future, innovative systems
    integration the major challenge. The ability to
    miniaturise and integrate intelligence and new
    functionalities into conventional and new
    components and materials is particularly relevant.

11
ETPs in networks, services, software security
(1/2)
  • Mobile and wireless communications (eMobility,
    www.emobility.eu.org) We are now entering into a
    second phase of growth in the mobile and wireless
    communications sector as applications and
    services are incorporated into business processes
    and all aspects of daily life. Realisation of
    this demands a major shift from the current
    concept of anywhere, anytime to a new paradigm
    of any network, any device, with relevant
    content and context in a secure and trustworthy
    manner.
  • Satcom (ISI, www.isi-initiative.eu.org)
    Satellite communications constitute a strategic
    sector for Europe, with significant economic
    impact and high societal relevance. They are
    instrumental for European-wide and international
    broadcasting, mobile communications, broadband
    access, bridging the digital divide, safety,
    crisis management, disaster relief, and dual use
    applications.

12
ETPs in networks, services, software security
(2/2)
  • Networked and electronic media (NEM,
    www.nem-initiative.org) The convergence,
    currently happening between telecommunications,
    broadcasting, information technologies, media
    content providers, and consumer electronics will
    significantly reshape the environment and usage
    for media and communications.
  • Software and Services (NESSI, www.nessi-europe.eu)
    The software and services marketplace is
    changing dramatically, due to a series of
    factors flexibility and capacity to put in place
    new business models, a continuing shift toward
    increasingly made-to-order solutions, a major
    shift toward mission-critical 24/24 running
    systems, broader uptake of ICT by end-users,
    emergence of open source software.

13
ETP on robotics
  • Robotics (EUROP, www.robotics-platform.eu.com)
    Robotics is a rapidly developing technology with
    products starting to emerge in many new areas
    from robots assisting surgeons to automated
    vacuum cleaners. Europe has a leading position in
    industrial robots and the EUROP initiative is
    being set up to ensure that Europe will continue
    to be a leader as the robots are gradually moving
    into our homes, offices and public spaces.

14
Conclusion and achievements so far
  • Nine ETPs in ICT
  • Involving over 700 organisations
  • Large companies, SMEs, universities and research
    labs
  • Nine Strategic Research Agendas, very important
    input to the ICT Work Programme
  • Involving Member States in mirror groups
  • Helping align public and private support to
    research across the EU
  • 2 ICT ETPs developed to Joint Technology
    Initiatives (JTI)

15
Joint Technology Initiatives ARTEMIS ENIAC
  • JTIs arise from the work of European Technology
    Platforms (ETPs)
  • ARTEMIS - Embedded Computing Systems
  • Essential technology building blocks for the next
    generation of embedded computing systems
    including design methods, hardware and software.
  • Public funding (2008-13) 400M (EC) 700M
    (Member states)
  • ENIAC Nanoelectronics
  • Driving new high-tech applications by further
    integration and miniaturisation of devices and
    increasing their functionalities (new materials,
    equipment and processes, new architectures,
    manufacturing, design, packaging and
    systemising).
  • Public funding (2008-13) 450M (EC) 800M
    (Member states)
  • JTIs will be implemented by Joint Undertakings
    (art. 171) as a public-private partnership

16
Joint Technology Initiatives ARTEMIS ENIAC
Status
  • Both JTIs were adopted by the Council on
    20/12/2007 and has officially started on 4
    February 2008
  • Commission in charge of the preparatory actions
  • JTIs fully autonomous by autumn 2008
  • Target to launch the first call in April 2008,
    but before we need
  • Financial rules
  • Decision making bodies
  • Interim Executive directors
  • Call documents (Workprogramme, guides, etc.)

17
ARTEMIS and ENIAC members
  • ARTEMIS
  • ARTEMISIA industrial association
  • Commission
  • 20 Member States
  • ENIAC
  • AENEAS industrial association
  • Commission
  • 17 Member States

18
Two examples of ARTEMIS/ENIAC project funding
  • Evaluation and selection of projects by the JU on
    the basis of excellence and competition
  • Funding scheme relies on national Grant
    Agreements
  • All partners get an equal EU funding and the
    additional national funding level depends on
    national rules

19
ARTEMIS/ENIAC JTI Benefits
  • Leveraging effect incentive for industry and
    Member States to increase their RD funding
    (Barcelona objectives)
  • Pioneering approach in pooling public and private
    efforts
  • Governance adapted to tri-lateral public-private
    partnership industry, Member States and
    Commission
  • Common objectives and strategy
  • Single evaluation, selection and project
    monitoring processes
  • Greater flexibility in mobilising resources of
    Member States that are ready to work towards
    common goals
  • First time ever large scale co-funding of RD by
    Community and Member States
  • Combining the strengths of Eureka and European
    Framework programmes
  • Boosting the competitiveness of EU industry
    whilst building the European Research Area

20
Thank you for your attention Questi
ons?
Write a Comment
User Comments (0)
About PowerShow.com