Summary
From government to consumer applications, personal identification is an ever increasing concern and demand. Fingerprints are the oldest and the most reliable features to be used because of their singularity and inalterability.
The main goal of the PYCSEL project is to develop a low cost thin and large area fingerprint sensing surface enabling the personal identification via the development of a TOLAE technology, combining an organic sensor with a TFT matrix on a plastic foil. Based on the fact that personal recognition requires high resolution (500 dpi) and large (1 up to 4 fingers) sensors, the project focuses on the design, development and integration of a printed pyroelectric PVDF-based sensor layer on a IGZO TFT active matrix on foil and connected to an electronic driver and readout board, resulting in a thin fingerprint conformable sensor with no need for any optical bulky and/or costly extra components integration. Multiple fingerprints capture will be possible with the resulting large area hybrid system whose conformability allow easy further integration and ergonomic use especially for high growth and high value portable security uses. Therefore, it will offer differentiating properties for the portable governmental market as it will exhibit breakthrough in terms of mechanical robustness and conformability. Those advantages will also increase fingerprint sensors penetration into high volume automotive (personalized HMIs), machine tool (user-restricted HMI), buildings (access control) and consumer markets (PCs). The PYCSEL project will also entitle a transfer from LAB proof of concept to Technological validation in relevant environment. The final large area fingerprint sensor prototype will be able to acquire 4 fingers at a time, with an objective resolution of 500 dpi, and will allow the running of biometric acquisition campaigns as well as demonstration of safety control in automotive application by end-users.
The main goal of the PYCSEL project is to develop a low cost thin and large area fingerprint sensing surface enabling the personal identification via the development of a TOLAE technology, combining an organic sensor with a TFT matrix on a plastic foil. Based on the fact that personal recognition requires high resolution (500 dpi) and large (1 up to 4 fingers) sensors, the project focuses on the design, development and integration of a printed pyroelectric PVDF-based sensor layer on a IGZO TFT active matrix on foil and connected to an electronic driver and readout board, resulting in a thin fingerprint conformable sensor with no need for any optical bulky and/or costly extra components integration. Multiple fingerprints capture will be possible with the resulting large area hybrid system whose conformability allow easy further integration and ergonomic use especially for high growth and high value portable security uses. Therefore, it will offer differentiating properties for the portable governmental market as it will exhibit breakthrough in terms of mechanical robustness and conformability. Those advantages will also increase fingerprint sensors penetration into high volume automotive (personalized HMIs), machine tool (user-restricted HMI), buildings (access control) and consumer markets (PCs). The PYCSEL project will also entitle a transfer from LAB proof of concept to Technological validation in relevant environment. The final large area fingerprint sensor prototype will be able to acquire 4 fingers at a time, with an objective resolution of 500 dpi, and will allow the running of biometric acquisition campaigns as well as demonstration of safety control in automotive application by end-users.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/732423 |
| Start date: | 01-01-2017 |
| End date: | 31-12-2019 |
| Total budget - Public funding: | 3 814 297,50 Euro - 3 814 297,00 Euro |
Cordis data
Original description
From government to consumer applications, personal identification is an ever increasing concern and demand. Fingerprints are the oldest and the most reliable features to be used because of their singularity and inalterability.The main goal of the PYCSEL project is to develop a low cost thin and large area fingerprint sensing surface enabling the personal identification via the development of a TOLAE technology, combining an organic sensor with a TFT matrix on a plastic foil. Based on the fact that personal recognition requires high resolution (500 dpi) and large (1 up to 4 fingers) sensors, the project focuses on the design, development and integration of a printed pyroelectric PVDF-based sensor layer on a IGZO TFT active matrix on foil and connected to an electronic driver and readout board, resulting in a thin fingerprint conformable sensor with no need for any optical bulky and/or costly extra components integration. Multiple fingerprints capture will be possible with the resulting large area hybrid system whose conformability allow easy further integration and ergonomic use especially for high growth and high value portable security uses. Therefore, it will offer differentiating properties for the portable governmental market as it will exhibit breakthrough in terms of mechanical robustness and conformability. Those advantages will also increase fingerprint sensors penetration into high volume automotive (personalized HMIs), machine tool (user-restricted HMI), buildings (access control) and consumer markets (PCs). The PYCSEL project will also entitle a transfer from LAB proof of concept to Technological validation in relevant environment. The final large area fingerprint sensor prototype will be able to acquire 4 fingers at a time, with an objective resolution of 500 dpi, and will allow the running of biometric acquisition campaigns as well as demonstration of safety control in automotive application by end-users.
Status
CLOSEDCall topic
ICT-02-2016Update Date
26-10-2022
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Organisations
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA) (Coördinator)
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| AUTOLIV DEVELOPMENT AB (ADS)
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| AUTOLIV-ISODELTA
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| BIOAGE SRL
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| IDEMIA IDENTITY & SECURITY FRANCE (IDEMIA)
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| INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM VZW
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| IRLYNX
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| TNO - Nederlandse Organisatie voor Toegepast Natuurwetenschappelijk Onderzoek
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| UNIVERSIDAD CARLOS III DE MADRID