Title :
Chaos-Based Renewable and Privacy Preserving Binary Palmprint Phase Templates for Cancellable Palmprint Recognition
Author :
Zhao Song ; Cao Haiwang ; Li Hengjian
Author_Institution :
ZhengZhou Inst. of Aeronaut. Ind. Manage., Zhengzhou, China
Abstract :
This paper presents a chaos-based renewable and privacy preserving binary palmprint phase template for cancellable palmprint recognition. In the proposed approach, a novel 2D orthogonal Log-Gabor filter is firstly constructed by two 2D Log-Gabor filters with orthogonal orientations to extract binary palmprint biometric phase template. And then the binary palmprint phase templates are encrypted by chaotic stream ciphers encrypt run in integer domain to generate renewable and privacy preserving binary palmprint templates. During the matching stage, the Hamming distance between two encrypted palmprint templates is employed to measure the similarity of different palmprints. The experiments carried out on PolyU palmprint database confirm the effectiveness of the proposed approach.
Keywords :
Gabor filters; Hamming codes; biometrics (access control); chaos; cryptography; data privacy; feature extraction; image coding; image matching; 2D orthogonal Log-Gabor filter; Hamming distance; PolyU palmprint database; binary palmprint biometric phase template extraction; cancellable palmprint recognition; chaos-based renewable palmprint phase templates; chaotic stream ciphers encryption; integer domain; matching stage; orthogonal orientations; privacy preserving binary palmprint phase templates; similarity measurement; Aerospace industry; Bandwidth; Biometrics; Chaos; Cryptography; Data privacy; Feature extraction; Frequency; Gabor filters; Hamming distance;
Conference_Titel :
Information Engineering and Computer Science, 2009. ICIECS 2009. International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-4994-1
DOI :
10.1109/ICIECS.2009.5362719
