Related papers: Exploring a Patch-Wise Approach for Privacy-Preserving Fake ID Detection

Exploring a Patch-Wise Approach for Privacy-Preserving Fake ID Detection

URL: http://arxiv.org/abs/2504.07761v1
Date: Thu, 10 Apr 2025 14:01:22 GMT
Title: Exploring a Patch-Wise Approach for Privacy-Preserving Fake ID Detection
Authors: Javier Muñoz-Haro, Ruben Tolosana, Ruben Vera-Rodriguez, Aythami Morales, Julian Fierrez,
Abstract summary: This study focuses on the topic of fake ID detection, covering several limitations in the field.<n>No publicly available data from real ID documents exists, and most studies rely on proprietary in-house databases that are not available due to privacy reasons.<n>We propose a novel patch-wise approach for privacy-preserving fake ID detection.
Score: 12.969417519807322
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: In an increasingly digitalized world, verifying the authenticity of ID documents has become a critical challenge for real-life applications such as digital banking, crypto-exchanges, renting, etc. This study focuses on the topic of fake ID detection, covering several limitations in the field. In particular, no publicly available data from real ID documents exists, and most studies rely on proprietary in-house databases that are not available due to privacy reasons. In order to shed some light on this critical challenge that makes difficult to advance in the field, we explore a trade-off between privacy (i.e., amount of sensitive data available) and performance, proposing a novel patch-wise approach for privacy-preserving fake ID detection. Our proposed approach explores how privacy can be enhanced through: i) two levels of anonymization for an ID document (i.e., fully- and pseudo-anonymized), and ii) different patch size configurations, varying the amount of sensitive data visible in the patch image. Also, state-of-the-art methods such as Vision Transformers and Foundation Models are considered in the analysis. The experimental framework shows that, on an unseen database (DLC-2021), our proposal achieves 13.91% and 0% EERs at patch and ID document level, showing a good generalization to other databases. In addition to this exploration, another key contribution of our study is the release of the first publicly available database that contains 48,400 patches from both real and fake ID documents, along with the experimental framework and models, which will be available in our GitHub.

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