Leonardo Marino
01 June 2015
31 July 2017
Introduction
Industry needs alternatives to textual passwords for access control. While tokens can still be stolen or transferred to other persons, biometrics technology can provide reliable, cost-effective and user-friendly solutions. The proliferation of smart services calls for unsupervised authentication at a distance. Being natural, non-intrusive and readily compatible with smart and mobile devices, automatic speaker verification (ASV) is an appealing solution. Even so, today’s state-of-the-art ASV systems lack robustness to environmental variability and are vulnerable to spoofing. Concerns regarding interoperability, scalability and privacy also form barriers to exploitation. While embracing standards, in addition to a privacy and interoperability-by-design ethos, OCTAVE will integrate commercial-grade and new, hybrid ASV systems with the latest environmental robustness and anti-spoofing technologies to deliver a scalable, trusted biometric authentication service (TBAS). While simultaneously relieving end-users from the inconvenience of dealing with textual passwords, the OCTAVE platform will reduce the economic and practical burdens related to password loss and recovery. The TBAS will support single (text-dependent, text-prompted and text-independent) in addition to hybrid operating modes. The delegation of authentication to a single, yet distributed TBAS, will increase trust and privacy, avoid single points of failure and allow for rapid breach notification and remediation. Solutions will be installed in data-sensitive and mission-critical services and validated in two real commercial trials: banking services and physical access within a critical airport infrastructure. Flexibility will support wider exploitation in future applications in, for example, customer care, telephone banking, e-commerce, logical and physical access control. OCTAVE will thus fuel new opportunities for commercial services making use of electronic identification and authentication.
Cyberwatching.eu has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 740129. The content of this website does not represent the opinion of the European Commission, and the European Commission is not responsible for any use that might be made of such content. Privacy Policy | Disclaimer / Terms and Conditions of Use