A Cancelable Biometric System Based on Deep Style Transfer and Symmetry Check for Double-Phase User Authentication.

Sedik, Ahmed; El-Latif, Ahmed A. Abd; El-Affendi, Mohammed; Mostafa, Hala

In recent times, there has been a noticeable increase in the application of human biometrics for user authentication in various domains, such as online banking. However, the use of biometric systems poses security risks and the potential for misuse, primarily due to the storage of original templates in databases. To tackle this issue, the concept of cancelable biometrics has emerged as a reliable method utilizing one-way encryption. Several algorithms have been developed to implement cancelable biometrics, incorporating visual representations of single or multiple biometrics. This research proposes a cancelable biometric system that utilizes deep learning techniques to generate two encrypted modalities, namely text and image, using facial and fingerprint biometrics acquired from a smartphone. The system consists of two main stages: a visual encoder and a text encoder. The visual encoder converts the fingerprint style into a facial representation, creating a cancelable template to ensure the potential for cancelation. The resulting visual template is then processed by the text encoder, which employs hashing techniques to generate a corresponding text template. User authentication is automatically verified by utilizing the generated templates through Siamese networks.

HUMAN fingerprints; BIOMETRIC fingerprinting; ARTIFICIAL neural networks; BIOMETRY; BIOMETRIC identification; DEEP learning

Symmetry (20738994), 2023, Vol 15, Issue 7, p1426

2073-8994

Academic Journal

10.3390/sym15071426