AI Article Synopsis

  • Biometric systems are susceptible to manipulation through presentation attacks (PAs), which can be carried out using various presentation attack instruments (PAIs).
  • Despite many detection methods for these attacks, ensuring they work effectively against unknown PAIs remains a significant challenge.
  • The authors introduced a self-supervised learning approach called DF-DM that enhances the generalization of PA detection by leveraging both local and global feature representations, achieving notable performance improvements in existing datasets compared to previous methods.

Article Abstract

Biometric systems are vulnerable to presentation attacks (PAs) performed using various PA instruments (PAIs). Even though there are numerous PA detection (PAD) techniques based on both deep learning and hand-crafted features, the generalization of PAD for unknown PAI is still a challenging problem. In this work, we empirically prove that the initialization of the PAD model is a crucial factor for generalization, which is rarely discussed in the community. Based on such observation, we proposed a self-supervised learning-based method, denoted as DF-DM. Specifically, DF-DM is based on a global-local view coupled with de-folding and de-mixing to derive the task-specific representation for PAD. During de-folding, the proposed technique will learn region-specific features to represent samples in a local pattern by explicitly minimizing the generative loss. While de-mixing drives detectors to obtain the instance-specific features with global information for more comprehensive representation by minimizing the interpolation-based consistency. Extensive experimental results show that the proposed method can achieve significant improvements in terms of both face and fingerprint PAD in more complicated and hybrid datasets when compared with the state-of-the-art methods. When training in CASIA-FASD and Idiap Replay-Attack, the proposed method can achieve an 18.60% equal error rate (EER) in OULU-NPU and MSU-MFSD, exceeding the baseline performance by 9.54%. The source code of the proposed technique is available at https://github.com/kongzhecn/dfdm.

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Source
http://dx.doi.org/10.1109/TNNLS.2023.3243229DOI Listing

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