Forschungs- & Entwicklungsinformationsdienst der Gemeinschaft - CORDIS

FP7 High-resolution fingerprint sensors based on a matrix of interconnected piezoelectric nanowires (NW

PiezoMAT

Project ID: 611019
Gefördert unter

High-resolution fingerprint sensing with vertical piezoelectric nanowire matrices

Von 2013-11-01 bis 2017-06-30, Abgeschlossenes Projekt | PiezoMAT Website

Projektdetails

Gesamtkosten:

EUR 3 860 242

EU-Beitrag:

EUR 2 897 354

Koordiniert in:

France

Aufruf zur Vorschlagseinreichung:

FP7-ICT-2013-10See other projects for this call

Finanzierungsprogramm:

CP - Collaborative project (generic)

Description

High-resolution fingerprint sensors based on a matrix of interconnected piezoelectric nanowires (NWs).
The paradigm of societal uses protected by biometric identification (ID) – from national security and controlled access, to health care, banking and leisure – requires coming up with ever more reliable built-in ID detection systems. In this context, PiezoMAT proposes a new technology of high-resolution fingerprint sensors based on a matrix of interconnected piezoelectric nanowires (NWs). The long term objective of PiezoMAT is to offer high performance fingerprint sensors with minimal volume occupation for integration into built-in systems able to compete on the market with the best existing products.PiezoMAT proceeds by local deformation of an array of individually contacted piezoelectric NWs and reconstruction from generated potentials, whose amplitudes are proportional to the NW displacement. Each NW and its associated electronics constitute a sensor, or pixel. The sub-micron dimension of NWs allows for high spatial frequency sampling of every fingerprint feature, enabling extremely reliable fingerprint differentiation through detection of the smallest minutiae (pores and ridge shapes). Charge collection efficiency is very dependent on the electrode configuration on each NW. PiezoMAT explores several possible configurations associated with gradual levels of technological challenges and risks, with a strong focus on developing reliable device design tools for present and future application-related adaptability. For the purpose of the PiezoMAT research, it is foreseen to collect generated charges and analogue output signals via metal lines connected to deported electronics on a printed circuit board. This configuration does not allow for maximum NW integration density but is designed to yield sufficient resolution to demonstrate the concept, major technological achievements and actual performance increase as compared to the state-of-the-art. Long term developments will pursue full electronics integration for an optimal sensor resolution.

Ziel

The paradigm of societal uses protected by biometric identification (ID) – from national security and controlled access, to health care, banking and leisure – requires coming up with ever more reliable built-in ID detection systems. In this context, PiezoMAT proposes a new technology of high-resolution fingerprint sensors based on a matrix of interconnected piezoelectric nanowires (NWs). The long term objective of PiezoMAT is to offer high performance fingerprint sensors with minimal volume occupation for integration into built-in systems able to compete on the market with the best existing products.PiezoMAT proceeds by local deformation of an array of individually contacted piezoelectric NWs and reconstruction from generated potentials, whose amplitudes are proportional to the NW displacement. Each NW and its associated electronics constitute a sensor, or pixel. The sub-micron dimension of NWs allows for high spatial frequency sampling of every fingerprint feature, enabling extremely reliable fingerprint differentiation through detection of the smallest minutiae (pores and ridge shapes). Charge collection efficiency is very dependent on the electrode configuration on each NW. PiezoMAT explores several possible configurations associated with gradual levels of technological challenges and risks, with a strong focus on developing reliable device design tools for present and future application-related adaptability. For the purpose of the PiezoMAT research, it is foreseen to collect generated charges and analogue output signals via metal lines connected to deported electronics on a printed circuit board. This configuration does not allow for maximum NW integration density but is designed to yield sufficient resolution to demonstrate the concept, major technological achievements and actual performance increase as compared to the state-of-the-art. Long term developments will pursue full electronics integration for an optimal sensor resolution.

Kontaktangaben des Koordinators

Emmanuelle Pauliac-Vaujour, (Coordinator)
E-Mail-Adresse

Koordinator

COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES
France

EU-Beitrag: EUR 736 319


RUE LEBLANC 25
75015 PARIS 15
France
Activity type: Research Organisations
Administrative Kontaktangaben: Lisa Bigot
Tel.: +33 438784622

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Teilnehmer

FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
Germany

EU-Beitrag: EUR 474 794


HANSASTRASSE 27C
80686 MUNCHEN
Germany
Activity type: Research Organisations
Administrative Kontaktangaben: Andrea Zeumann
Tel.: +49 89 1205 2723
Fax: +49 89 1205 7534

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UNIVERSITAET LEIPZIG
Germany

EU-Beitrag: EUR 319 389


RITTERSTRASSE 26
04109 LEIPZIG
Germany
Activity type: Higher or Secondary Education Establishments
Administrative Kontaktangaben: Marius Grundmann
Tel.: +49 341 9732650
Fax: +49 341 9732668

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MORPHO
France

EU-Beitrag: EUR 244 960


Boulevard Gallieni 11
92130 ISSY LES MOULINEAUX
France
Activity type: Private for-profit entities (excluding Higher or Secondary Education Establishments)
Administrative Kontaktangaben: Krassimir Krastev
Tel.: +33 1 58 11 25 43

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SPECIFIC POLYMERS
France

EU-Beitrag: EUR 199 410


AVENUE DES COCARDIERES ZAC VIA DOMITIA 150
34160 CASTRIES
France
Activity type: Private for-profit entities (excluding Higher or Secondary Education Establishments)
Administrative Kontaktangaben: Cedric Loubat
Tel.: +33 4 67 59 30 25
Fax: +33 4 67 59 30 26

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MAGYAR TUDOMANYOS AKADEMIA ENERGIATUDOMANYI KUTATOKOZPONT
Hungary

EU-Beitrag: EUR 183 658


KONKOLY THEGE MIKLOS UT 29-33
1121 Budapest
Hungary
Activity type: Research Organisations
Administrative Kontaktangaben: Krisztina Szakolczai
Tel.: +36 13922222

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MAGYAR TUDOMANYOS AKADEMIA TERMESZETTUDOMANYI KUTATOKOZPONT
Teilnahme ist beendet
Hungary

EU-Beitrag: EUR 86 342


MAGYAR TUDOSOK KRT 2
1117 BUDAPEST
Hungary
Activity type: Higher or Secondary Education Establishments
Administrative Kontaktangaben: Anita Ritter
Tel.: +36 1 392 2229

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UNIVERSITY COLLEGE CORK - NATIONAL UNIVERSITY OF IRELAND, CORK
Ireland

EU-Beitrag: EUR 414 474


WESTERN ROAD
T12 Cork
Ireland
Activity type: Higher or Secondary Education Establishments
Administrative Kontaktangaben: Conor Delaney
Tel.: +353 21 4906263

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KAUNO TECHNOLOGIJOS UNIVERSITETAS
Lithuania

EU-Beitrag: EUR 238 008


K DONELAICIO 73
44249 KAUNAS
Lithuania
Activity type: Higher or Secondary Education Establishments
Administrative Kontaktangaben: Rolanas Dauksevicius
Tel.: +370 68267170
Fax: +370 37323461

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