Title :
A security- and privacy-driven hybrid biometric template protection technique
Author :
Wei Jing Wong ; Wong, M.L.D. ; Teoh, Andrew Beng Jin
Author_Institution :
Fac. of Eng., Comput. & Sci., Swinburne Univ. of Technol. Sarawak Campus, Kuching, Malaysia
Abstract :
Biometric template protection techniques are used to secure biometric templates from various attacks and threats. As the trade-off between the performance and the security and privacy of said techniques has drawn increasing concerns from the researchers, a single approach can no longer satisfy the elevated requirement. In this paper, a state-of-the-art hybrid template protection method, called the cancelable secure sketch (CaSS) is proposed. The concept of CaSS is demonstrated via a cancelable fingerprint, namely the multi-line code (MLC) with the code-offset construction of secure sketch. The proposed method boasts high security and privacy by virtue of the revocability of MLC. Besides, inheriting the high performance of binary MLC, the CaSS method is able to achieve 0% FRR and FAR.
Keywords :
authorisation; computer graphics; data privacy; fingerprint identification; image coding; CaSS concept; MLC revocability; cancelable fingerprint; cancelable secure sketch; code-offset construction; multiline code; privacy-driven hybrid biometric template protection technique; security-driven hybrid biometric template protection technique; Accuracy; Cryptography; Fingerprint recognition; Iron; Privacy; Robustness; Biometric template protection; cancelable fingerprint; multi-line code; secure sketch;
Conference_Titel :
Electronics, Information and Communications (ICEIC), 2014 International Conference on
Conference_Location :
Kota Kinabalu
DOI :
10.1109/ELINFOCOM.2014.6914383
