OTB-morph: One-Time Biometrics via Morphing
This work addresses security and privacy issues in biometric recognition systems, but it appears incremental as it builds on existing cancelable biometrics techniques.
The paper tackled the problem of protecting biometric templates from iterative optimization attacks by proposing a new cancelable biometrics scheme using time-varying keys and morphing transformations, with experimental results showing it withstands leakage attacks and improves recognition performance.
Cancelable biometrics are a group of techniques to transform the input biometric to an irreversible feature intentionally using a transformation function and usually a key in order to provide security and privacy in biometric recognition systems. This transformation is repeatable enabling subsequent biometric comparisons. This paper is introducing a new idea to exploit as a transformation function for cancelable biometrics aimed at protecting the templates against iterative optimization attacks. Our proposed scheme is based on time-varying keys (random biometrics in our case) and morphing transformations. An experimental implementation of the proposed scheme is given for face biometrics. The results confirm that the proposed approach is able to withstand against leakage attacks while improving the recognition performance.