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Evolutii europene in CSDTI

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Title: Evolutii europene in CSDTI


1
Evolutii europene in CSDTI .
  • cu particularizare la noi materiale si noi
    tehnologii.

2
Preambul
  • Planul National de Dezvoltare 2007-2013, dupa
    integrarea Romaniei in UE.
  • Cresterea competitivitatii economice si
    dezvoltarea economiei bazate pe cunoastere, care
    include si CSDTI.
  • Cuvinte (expresii) cheie economia bazata pe
    cunoastere, tehnologii avansate (inalta
    tehnologie), inovare, retele tehnologice,
    platforme tehnologice s.a. asemenea
    (infrastructuri institutionale).

3
Economie bazata pe cunoastere (knowledge-based
economy)
  • In Europa, termenul a devenit mai bine cunoscut
    dupa declaratia de la Lisabona a Consiliului
    Europei (2000) care plasa UE in cursa pentru cea
    mai competitiva economie bazata pe cunoastere.
  • Progres lent pana in 2004 si revigorarea promisa
    de noua Comisie Europeana (implicarea guvernelor
    nationale).

4
Barcelona si 3 din PIB pentru cercetare in UE
  • Rolul cercetarii finantate din fonduri publice
    diseminarea de cunostinte, formarea de
    specialisti, asigurarea de servicii stiintifice
    si de instruire, in special pentru
    intreprinderile inovative.
  • Problema la scara europeana este mai putin
    cantitativa (cresterea finantarii din fonduri
    publice), cat calitativa (utilizarea mai buna a
    acestor fonduri publice pentru a determina ...
    cresterea finantarii din fonduri private).

5
Competitivitatea este de neconceput fara inovare.
  • Nu exista un alt mod de a deveni sau a ramane
    competitiv in actuala economie decat prin
    invoarea continua, crearea de noi produse si
    servicii (care au o piata!).
  • Inovarea este mai frecventa si mai fecunda in
    noile tehnologii, dar cresterea complexitatii
    fenomenelor din economie necesita si noi moduri
    de inovare.

6
.. MATNENTECH
  • Programul MATNATECH (impreuna cu alte trei
    programe din actualul PNCDI) face parte din
    categoria celor legate de o economie bazata pe
    cunoastere.
  • Exista uneori senzatia ca economia bazata pe
    cunoastere este legata de anumite domenii, in
    speta de noile tehnologii.

7
Noile tehnologii
  • Competitivitatea este intr-adevar bazata intr-o
    mare masura pe noile tehnologii, dar in egala
    masura pe modul in care cunoasterea in general
    este achizionata, generata, impartasita
    (sharing knowledge).
  • Este vorba nu numai de cunoasterea stiintifica.
    De exemplu pentru a avea succes pe piata trebuie
    sa cunosti nevoile consumatorilor, modul lor de a
    gandi. Inovarea legata de dezvoltarea de noi
    produse si servicii nu se bazeaza exclusiv pe
    noile tehnologii.

8
Activele organizatiilor in economia bazata pe
cunoastere
  • Desi noile tehnologii par a fi trasatura
    distinctiva a noii economii, eficienta si
    progresul acesteia nu este limitat de tehnologii,
    ci de modul in care este gestionata cunoasterea
    (knowledge management).
  • Modul de organizare al firmelor si al
    organizatiilor in general. Activele firmelor din
    economia bazata pe cunoastere nu cuprind numai
    categoriile conventionale .
  • Apar noi forme de organizare infrastructuri
    specifice, cum ar fi retelele (networks) sau
    platformele tehnologice

9
Caracteristici ale cercetarii stiintifice in
epoca actuala.
  • Tehnologia nu mai este astazi un mestesug, ci
    este bazata pe cunoastere stiintifica. Aceasta
    face imposibila separarea dezvoltarii tehnologice
    de cercetarea stiintifica.
  • Cercetarea stiintifica devine puternic
    multidisciplinara, deoarece .... lumea reala este
    multidisciplinara. Specialistii din diverse
    discipline trebuie sa dezvolte in comun
    cunoasterea si sa utilizeze impreuna paradigmele
    care corespund diverselor discipline. Intr-o mica
    masura ei mai pot fi instruiti multidisciplinar
    in universitati. Educarea multidisciplinara
    profunda inseamna lucrul in comun, in echipe de
    cercetare multidisciplinare.

10
Exemplu de cercetare multidisciplinara
  • Este foarte interesant cat de multidisciplinara
    devine dezvoltarea tehnologiilor de baza in
    domeniul ICT (Information and Communication
    Technologies). In momentul de fata, aici
    domeniile cu care intreactioneaza aceste
    tehnologii aparent extrem de specializate sunt
    (propunere pentru PC7) materialele, biologia si
    stiintele vietii, neurostiintele, stiintele
    cognitive si chiar stiintele economice si
    sociale.
  • Un aspect extrem de important este convergenta
    tehnologiilor. Baza de cunoastere stiintifica a
    acestor tehnologii este extrem de complexa. PC6 a
    ilustrat deja aceasta tendinta. Exemple.

11
Ciclul cunoasterii
  • Ciclul cunoasterii ea devenit extrem de rapid.
    Noile cunostiinte se utilizeaza rapid, nu numai
    in educatie, dar si in economie. Companiile
    comerciale au nevoie disperata de o noile
    cunostiinte stiintifice, nu numai de noile
    tehnologii.
  • Cercetarea trebuie sa fie interactioneze cu
    educatia si instruirea. PC7 preconizeaza a)
    injectarea unei culturi de cercetare la toate
    nivelele de educatie, b) includerea in proiectele
    de cercetare a unor obiective legate de educatie
    si instruire.
  • In ceea ce priveste cooperarea intre cercetare si
    industrie, este importanta crearea unui mediu de
    cercetare deschis, cu implicarea industriei. In
    particular industria este importanata pentru
    indentificarea noilor directii de cercetare
    aplicativa.

12
Oscilator electromecanic cu nanotub de carbon
Paul McEuer (Cornell Univ., Ithaca), Sept. 16,
2004, Nature Reprodus din Micro Nano Oct. 2004,
vol. 9, No 10.
13
Platforme tehnologice
  • Cercetarea stiintifica si dezvoltarea tehnologica
    reprezinta fenomene globale. Exista competitie,
    dar si cooperare la scara globala. Asa numita
    globalizare include si cercetarea stiintifica si
    dezvoltarea tehnologica. Un fenomen nou este
    parteneriatul companiilor in cercetarea
    stiintifica si tehnologica.
  • Foarte intersant este conceptul de platforma
    tehnologica (se explica). Platformele regionale
    si retele sunt de asemenea importante.

14
Ce se intampla in UE cu cercetarea fundamentala?
  • Ea va fi stimulata in PC7 prin granturi care se
    vor atribui echipelor individuale de cercetare.
    Dar dincolo de aceasta, PC7 va sprijini
    cercetarea orientata, pe baza de colaborare intre
    diverse institutii, din diverse tari.
    Dezvoltarile tehnologice necesita un efort major
    prin cooperare multidisciplinara, antrenand toate
    stiintele de baza fizica, chimia, biologia,
    matematica.

15
Alte eveolutii in PC7
  • Se vor dezvolta infrastructurile de cercetare, se
    vor sprijini in continuare mobilitatile, dar va
    aparea si coordonarea programelor nationale de
    cercetare. Cercetarea multidisciplinara este o
    necesiate.
  • Dincolo de granitele nationale trebuie promovata
    excelenta, cooperarea internationala. Pentru
    noile state membere si tarile candidate, este
    esentiala imbunatatirea infrastructurilor de
    cercetare. De asemena, accelerarea proceselor de
    intergrare a comunitatilor stiintifice in
    programele de cercertare.

16
Concluzii sugestii pentru orientarea cercetarii
(1)
  • Tematica cercetarii este esentiala (globalizarea
    cere ca si cercetarea aplicativa sa fie
    competitiva)
  • Cercetare multidisciplinara, orientata spre
    calitatea vietii, inclusiv securitate, mediu etc.
  • Cooperarea europeana poate asigura o masa critica
    si acces la infrastructuri

17
Concluzii sugestii pentru orientarea cercetarii
(2)
  • Resursele umane sunt esentiale (capital care
    trebuie valorificat)
  • Cercetarea trebuie sa interactioneze strans cu
    educatia si industria
  • Noi tipuri de infrastructuri pentru cercetare,
    dar si pentru educatie si inovare
  • Utilizarea infrastructurii costisitoare in poli
    tehnologici care permit atat activitati de
    cercetare, cat si de educatie/instruire,
    dezvoltare tehnologica si valorificare

18
MINOS-EURONET
  • Micro-NanOSystems EUROpean NETwork pursuing the
    integration of NMS and ACC in ERA
  • SSA, IST call 3
  • 18 partners (8 from NMS and ACC)

19
Focus on one strategic objective in IST micro-
and nanosystems
  • The proposal is addressing the following
    objectives
  • (1) Revealing and promoting the research
    competences from NMS and ACC, which are relevant
    for the development of the field of
    micro-nanosystems at the European scale
  • (2) Facilitating the participation of NMS and ACC
    organisations to EU programmes and other
    activities in the field of micro-nanosystems
  • (3) Performing extensive networking at the
    pan-European scale in the field of
    micro-nanosystems.

20
MINOS consortium
  • The proposal is put forward by 18 partners. The
    backbone of this powerful consortium is
    constituted by the Western research organisations
    which are coordinators of 8 other big projects in
    FP6.
  • This cluster is totalling 159 different
    organisations, which provides a critical mass for
    pan European networking. This cluster of 8
    independent projects is covering a broad spectrum
    of technologies and applications, requiring broad
    multidisciplinary science and engineering and
    displaying an exciting potential of cooperation
    for NMS and ACC.

21
Activities, organized in four work packages for
support activities
  • (i) extensive networking, using an integrated
    communication platform (ii) creation,
    maintenance, promotion and linking of databases
    of researchers, research and industrial
    organisations, enhancing the visibility of
    potential partners from NMS and ACC and promoting
    participation to EU programmes (iii) the
    organisation, with the same purpose of brokerage
    events and seminars, primarily in NMS and ACC,
    (iv) organisation of three annual editions of a
    new European research conference devoted to
    Microsystems as a platform for integrating
    technologies.

22
A network of networks
  • The characteristic of this project is given by
    the presence in the project consortium of eight
    coordinators of big FP6 projects. 5 NoEs and 2
    IPs (mostly from IST) are involved. These
    projects are representing a very powerful
    cluster, providing a unique pool of potential
    connections for the human resources in NMS and
    ACC.

23
GOSPEL (General Olfaction and Sensing Projects on
a European Level), NoE in priority 2, IST.
  • Scientific and technological area Artificial
    olfaction Gas sensor systems realized in
    MSTechnology nanostructured sensitive layers
    innovative bio-inspired data analysis
    integration of electronics with the sensors
    microsystem packaging. Application domain
    Quantitative assessment of gases and odors
    Understanding of the biological sense of smell
    and mimic its relevant functions. Expected
    implications A landscape of European capability
    in artificial olfaction identification of
    services required by industry, development of the
    offering and putting in place the necessary legal
    and organisational structures to implement them.
    GOSPEL will develop multi-disciplinary approaches
    to this subject through a comprehensive training
    and exchange programme.

24
PATENT-dfmm (Design for Micro Nano
Manufacture), NoE, in priority 2, IST.
  • Scientific and technological area Micro
    Nanosystem Technologies. Application domain
    Micro and nanotechnology based products.
  • Expected implications ? Major advances in the
    performance of communications, transportation and
    control systems, radical improvements in the
    accuracy and sensitivity of environmentally
    sensed data, bio-chemical devices awaited with
    the potential to improve healthcare and medicine
    ? solving key challenges in the fields of
    modeling and simulation, test, reliability and
    package engineering ? creation of a Virtual
    Institute for Design for Micromanufacture
    Methodology DfMM research for MNT based products.

25
AMICOM (Advanced MEMS for RF and Millimeter Wave
Communications), NoE in priority 2, IST.
  • Scientific and technological area Micro and Nano
    Systems. Application domain Micro and Nano
    Systems Mobile and Wireless Systems safety of
    road.
  • Expected implications AMICOM will solve major
    technological issues will develop a generic
    platform of knowledge to assess smart systems for
    advanced information and communication
    applications. The microsystems will feature
    innovative functionalities, such as circuit
    redundancy, reconfigurability and power
    management.

26
GOOD FOOD (Food Safety and Quality with
Microsystems), IP in priority 2, IST.
  • Scientific and technological area Micro and
    Nanotechnology (MST and MNT) Micro fluidic
    system for residue concentration Integrated
    optical sensor combined with smart CMOS camera
    detector Gas sensors array based on metal oxide
    and cantilevers Single chip array of gas sensors
    on micro machined membranes Electronic tongue.
  • Application domain Food safety and quality fast
    antibiotics residues screening Pesticide
    detection detection of toxigenic fungi using
    molecular markers (DNA) Detection of Food borne
    pathogens Multisensing Microsystems integration
    for food control.
  • Expected implications Developing the new
    generation of analytical methods based on Micro
    and Nanotechnology (MST and MNT) solutions for
    the safety and quality of food.

27
HEALTHY AIMS (Nano scale materials and sensors
and microsystems for medical implants improving
health and quality of life), IP prior.IST.
  • Scientific and technological area Technologies
    involved RF Communications and power source for
    implanting into the human Biocompatible
    materials Micro-electrodes Micro-assembly
    techniques, Sensors and actuators to fit inside
    the body. Application domain New implantable
    medical devices Cochlear implant Retina implant
    and glaucoma sensor FES for upper and lower
    limbs Artificial intra-urethral sphincter
    Sphincter sensor Intracranial pressure sensor
    for long term implant (gt10 years). Expected
    implications Usage of microsystems and
    nanotechnology in the medical sector, thus
    ultimately improving the quality of life for
    citizens across Europe.

28
4M (Material Micro Manufacture Technologies and
Applications), NoE in priority 3, NMP.
  • Scientific and technological area Micro- and
    Nano- Technology. Application domain New
    generation of sensors, actuators and systems for
    safety and security of people and environment.
  • Expected implications Development of Micro-and
    Nano-Technology (MNT) for batch-manufacture of
    micro-components and devices into user-friendly
    production equipment, processes and manufacturing
    platforms. 4M will unify the currently fragmented
    European RD expertise on non-silicon microtech
    into a European Centre for MNT process and
    product development.

29
Nano2Life (Bringing NANOtechnologies TO LIFE),
NoE, priority 3, NMP.
  • Scientific and technological area
    Nanobiotechnology area of complex and integrated
    novel sensor technologies.
  • Application domain Health care, pharmaceuticals,
    environment, security, food safety, etc. The
    network support the development of nanoparticles
    and nanofluidics handling, integrated systems
    cells, lab-on-chip. Expected implications To
    make Europe a leader in nanobiotechnology
    transfer, to keep Europe as a competitive partner
    the field of nanobiotechnology. Nano2Life
    intends to tackle fragmentation, to durably
    integrate organizations, to interface two worlds
    nano and bio, to translate science into economic
    benefits and educate society about nanobiotech.

30
ASSEMIC (Advanced Methods and Tools for Handling
and Assembly in Microtechnology), Training by
Research Network, Marie Curie actions.
  • Scientific and technological area Micro-handling
    and assembly New tools and systems for ultra
    precision positioning accuracy (micro- and
    nano-range) Industrial production issues and
    manufacturability of assembled MEMS.
  • Application domain Assembly of MEMS biological
    applications. Expected implications The
    development of a number of system and tools
    prototypes for handling and assembly in MST,
    various micro grippers and a haptic interface
    device for telemanipulation enhancement of the
    quality of European research training in the
    field of Micro-handling and assembly.

31
and more
  • These projects, tightly connected to the MINOS
    project (see also section B.3) were selected for
    their connection with certain application domains
    such as health (Healthy Man), food industry (Good
    Food), environment and security (GOSPEL),
    communications (AMICOM), which are connected to
    priorities and needs of NMS and ACC. Moreover,
    another factor was their connection to new
    materials in microtechnologies (4M), micro-nano
    (PATENT), nano-bio (Nano2Life) and micro-nano-bio
    (ASSEMIC) focus.
  • The orientation towards mixed technologies, or
    converging technologies (see above) will be an
    important feature of the activity.
  • Extremely representative for this evolution it is
    the presence in the above cluster of two NoEs
    from NMP, namely 4M and Nano2Life, whereas two
    others Nanofun-Poly and Inside.Pores accepted to
    be associated to the above cluster. So did also
    SENSATION, an IP from IST (again
    micro-nanosystems).
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