The development and the diffusion of distributed systems, directly connected to recent communication technologies, move people towards the era of mobile and ubiquitous systems. Distributed systems make merchant-customer relationships closer and more flexible, using reliable e-commerce technologies. These systems and environments need many distributed access points, for the creation and management of secure identities and for the secure recognition of users. Traditionally, these access points can be made possible by a software system with a main central server. This work proposes the study and implementation of a multimodal technique, based on biometric information, for identity management and personal ubiquitous authentication. The multimodal technique uses both fingerprint micro features (minutiae) and fingerprint macro features (singularity points) for robust user authentication. To strengthen the security level of electronic payment systems, an embedded hardware prototype has been also created: acting as self-contained sensors, it performs the entire authentication process on the same device, so that all critical information (e.g. biometric data, account transactions and cryptographic keys), are managed and stored inside the sensor, without any data transmission. The sensor has been prototyped using the Celoxica RC203E board, achieving fast execution time, low working frequency, and good recognition performance.

Conti, V., Militello, C., Sorbello, F., Vitabile, S. (2009). A Multimodal Technique for an Embedded Fingerprint Recognizer in Mobile Payment Systems. MOBILE INFORMATION SYSTEMS, 5(2), 105-124 [10.3233/MIS-2009-0076].

A Multimodal Technique for an Embedded Fingerprint Recognizer in Mobile Payment Systems

CONTI, Vincenzo;MILITELLO, Carmelo;SORBELLO, Filippo;VITABILE, Salvatore
2009-01-01

Abstract

The development and the diffusion of distributed systems, directly connected to recent communication technologies, move people towards the era of mobile and ubiquitous systems. Distributed systems make merchant-customer relationships closer and more flexible, using reliable e-commerce technologies. These systems and environments need many distributed access points, for the creation and management of secure identities and for the secure recognition of users. Traditionally, these access points can be made possible by a software system with a main central server. This work proposes the study and implementation of a multimodal technique, based on biometric information, for identity management and personal ubiquitous authentication. The multimodal technique uses both fingerprint micro features (minutiae) and fingerprint macro features (singularity points) for robust user authentication. To strengthen the security level of electronic payment systems, an embedded hardware prototype has been also created: acting as self-contained sensors, it performs the entire authentication process on the same device, so that all critical information (e.g. biometric data, account transactions and cryptographic keys), are managed and stored inside the sensor, without any data transmission. The sensor has been prototyped using the Celoxica RC203E board, achieving fast execution time, low working frequency, and good recognition performance.
2009
Conti, V., Militello, C., Sorbello, F., Vitabile, S. (2009). A Multimodal Technique for an Embedded Fingerprint Recognizer in Mobile Payment Systems. MOBILE INFORMATION SYSTEMS, 5(2), 105-124 [10.3233/MIS-2009-0076].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/51354
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