A Unified Model for Fingerprint Authentication and Presentation Attack Detection

2021 IEEE International Joint Conference on Biometrics (IJCB) Pub Date : 2021-04-07 DOI:10.1109/IJCB52358.2021.9484382

Additya Popli, Saraansh Tandon, Joshua J. Engelsma, N. Onoe, Atsushi Okubo, A. Namboodiri

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引用次数: 6

Abstract

Typical fingerprint recognition systems are comprised of a spoof detection module and a subsequent recognition module, running one after the other. In this paper, we reformulate the workings of a typical fingerprint recognition system. In particular, we posit that both spoof detection and fingerprint recognition are correlated tasks. Therefore, rather than performing the two tasks separately, we propose a joint model for spoof detection and matching1 to simultaneously perform both tasks without compromising the accuracy of either task. We demonstrate the capability of our joint model to obtain an authentication accuracy (1:1 matching) of TAR = 100% @ FAR = 0.1% on the FVC 2006 DB2A dataset while achieving a spoof detection ACE of 1.44% on the LiveDet 2015 dataset, both maintaining the performance of stand-alone methods. In practice, this reduces the time and memory requirements of the fingerprint recognition system by 50% and 40%, respectively; a significant advantage for recognition systems running on resource-constrained devices and communication channels.

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指纹认证与表示攻击检测的统一模型

典型的指纹识别系统由欺骗检测模块和随后的识别模块组成，一个接一个地运行。本文对典型指纹识别系统的工作原理进行了重新表述。特别是，我们假设欺骗检测和指纹识别是相互关联的任务。因此，我们提出了一个欺骗检测和匹配的联合模型，而不是单独执行这两个任务，以同时执行这两个任务，而不影响任何一个任务的准确性。我们证明了我们的联合模型能够在FVC 2006 DB2A数据集上获得TAR = 100% @ FAR = 0.1%的认证精度(1:1匹配)，同时在LiveDet 2015数据集上实现1.44%的欺骗检测ACE，两者都保持了独立方法的性能。在实践中，这使指纹识别系统的时间和内存需求分别降低了50%和40%;在资源受限的设备和通信通道上运行的识别系统具有显著的优势。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2021 IEEE International Joint Conference on Biometrics (IJCB)

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