Title :
Mathematical formulation for the secure discretisation of continuously variable biometrics
Author :
Goh, Alwyn ; Ngo, David CL
Author_Institution :
Corentix Lab., Petaling Jaya, Malaysia
Abstract :
This paper proposes the mathematical formulation for the secure discretisation of continuously variable biometrics. The secure discretisation of biometric data is based on error-tolerant transformation of continuous-valued representations. Bio-hashes are computed from iterated inner products between biometric and pseudorandom signals. The pseudorandom input is securely derived from token serialisations, resulting in token-and biometric bitstrings. It also has several major advantages: elimination of false accepts (FA) without unacceptable compromise in terms of more probable false rejects (FR), straightforward key-management, and versatile applicability (via cryptographic protocols) in various transaction scenarios.
Keywords :
biometrics (access control); cryptography; mathematical analysis; random sequences; security of data; telecommunication security; bio-hash; continuous-valued representation; continuously variable biometric data; cryptographic protocol; error-tolerant transformation; false accept elimination; false reject; iterated inner product; mathematical formulation; pseudorandom signal; secure discretisation; straightforward key-management; token serialisation; token-biometric bitstring; Bioinformatics; Biometrics; Cryptography; Fingerprint recognition; Interpolation; Laboratories; Linear discriminant analysis; Multimedia databases; Polynomials; Principal component analysis;
Conference_Titel :
Information and Communication Technologies: From Theory to Applications, 2004. Proceedings. 2004 International Conference on
Print_ISBN :
0-7803-8482-2
DOI :
10.1109/ICTTA.2004.1307805
