Mathematics (Apr 2020)

Fingerprint Liveness Detection Based on Fine-Grained Feature Fusion for Intelligent Devices

  • Xinting Li,
  • Weijin Cheng,
  • Chengsheng Yuan,
  • Wei Gu,
  • Baochen Yang,
  • Qi Cui

DOI
https://doi.org/10.3390/math8040517
Journal volume & issue
Vol. 8, no. 4
p. 517

Abstract

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Currently, intelligent devices with fingerprint identification are widely deployed in our daily life. However, they are vulnerable to attack by fake fingerprints made of special materials. To elevate the security of these intelligent devices, many fingerprint liveness detection (FLD) algorithms have been explored. In this paper, we propose a novel detection structure to discriminate genuine or fake fingerprints. First, to describe the subtle differences between them and take advantage of texture descriptors, three types of different fine-grained texture feature extraction algorithms are used. Next, we develop a feature fusion rule, including five operations, to better integrate the above features. Finally, those fused features are fed into a support vector machine (SVM) classifier for subsequent classification. Data analysis on three standard fingerprint datasets indicates that the performance of our method outperforms other FLD methods proposed in recent literature. Moreover, data analysis results of blind materials are also reported.

Keywords