Anomaly Detection with Convolutional Autoencoders for Fingerprint Presentation Attack Detection
In recent years, the popularity of fingerprint-based biometric authentication systems has significantly increased. However, together with many advantages, biometric systems are still vulnerable to presentation attacks (PAs). In particular, this applies for unsupervised applications, where new attacks unknown to the system operator may occur. Therefore, presentation attack detection (PAD) methods are used to determine whether samples stem from a live subject (bona fide) or from a presentation attack instrument (PAI). In this context, most works are dedicated to solve PAD as a two-class classification problem, which includes training a model on both bona fide and PA samples. In spite of the good detection rates reported, these methods still face difficulties detecting PAIs from unknown materials. To address this issue, we propose a new PAD technique based on autoencoders (AEs) trained only on bona fide samples (i.e. one-class). On the experimental evaluation over a database of 19,711 bona fide and 4,339 PA images, including 45 different PAI species, a detection equal error rate (D-EER) of 2.00 best performing AE model is compared to further one-class classifiers (support vector machine, Gaussian mixture model). The results show the effectiveness of the AE model as it significantly outperforms the previously proposed methods.
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