Digital Picture Processing
Introduction to Cryptography (Undergraduate Texts in Mathematics)
Introduction to Cryptography (Undergraduate Texts in Mathematics)
Enhancing security and privacy in biometrics-based authentication systems
IBM Systems Journal - End-to-end security
Cancelable Biometric Filters for Face Recognition
ICPR '04 Proceedings of the Pattern Recognition, 17th International Conference on (ICPR'04) Volume 3 - Volume 03
Machine Vision and Applications
Cancelable Biometrics: A Case Study in Fingerprints
ICPR '06 Proceedings of the 18th International Conference on Pattern Recognition - Volume 04
Image Processing by Transforms Over a Finite Field
IEEE Transactions on Computers
PalmHashing: a novel approach for cancelable biometrics
Information Processing Letters
A Proposal of Efficient Remote Biometric Authentication Protocol
IWSEC '09 Proceedings of the 4th International Workshop on Security: Advances in Information and Computer Security
Security notions of biometric remote authentication revisited
STM'11 Proceedings of the 7th international conference on Security and Trust Management
Security performance evaluation for biometric template protection techniques
International Journal of Biometrics
Hi-index | 0.00 |
In this paper, we propose a novel method of Cancelable Biometrics for correlation-based matching. The biometric image is transformed by Number Theoretic Transform (Fourier-like transform over a finite field), and then the transformed data is masked with a random filter. By applying a particular kind of masking technique, the correlation between the registered image and the input matching image can be computed in masked domain (i.e., encrypted domain) without knowing the original images. And we proved theoretically that in our proposed method the masked version does not leak any information of the original image, in other words, our proposed method has perfect secrecy. Additionally, we applied our proposed method to finger-vein pattern verification and experimentally obtained very high verification performance.