基于多共生描述符和局部拓扑相似度的高分辨率指纹图像孔隙快速比较

IEEE Transactions on Systems Man and Cybernetics Part A-Systems and Humans Pub Date : 2021-09-01 DOI:10.1109/TSMC.2019.2957411

Yuanrong Xu, Yao Lu, Guangming Lu, Jinxing Li, Dafan Zhang

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引用次数: 4

摘要

基于孔隙的指纹识别技术已经研究了几十年。为了提高系统的识别精度，人们提出了许多算法。然而，精度的提高总是以速度为代价的。本文提出了一种新的方法来比较高分辨率指纹图像中的孔隙使用流行的粗到细策略。为了改进孔隙间相似度的计算，提出了一种多空间成对局部共生描述符。它使用相邻孔隙计算每个孔隙的多个局部共现统计信息。该方法可以更准确地建立孔隙间的对应关系。然后通过使用局部拓扑保持匹配算法来实现对应的细化。该算法使用旋转不变局部结构和孔对局部拓扑相似度来计算每个对应的代价。它可以更准确、更有效地去除不匹配。在两个高分辨率指纹图像数据库上的实验结果表明，与现有算法相比，该算法在准确率和速度上都有较好的提高。

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Fast Pore Comparison for High Resolution Fingerprint Images Based on Multiple Co-Occurrence Descriptors and Local Topology Similarities

Pore-based fingerprint recognition has been researched for decades. Many algorithms have been proposed to improve the recognition accuracy of the system. However, the accuracies are always improved at the cost of speed. This article proposes a novel method to compare the pores in high-resolution fingerprint images using the popular coarse-to-fine strategy. A multiple spatial pairwise local co-occurrence descriptor is proposed to improve the calculation of the similarities between pores. It calculates multiple local co-occurrence statistics for each pore using its neighbors. The proposed method can establish correspondences between pores more accurately. The refinement of the correspondences is then achieved by using a local topology-preserving matching algorithm. The algorithm uses rotational invariant local structures and pore pair local topology similarities to calculate the cost of each correspondence. It can remove the mismatches more accurately and efficiently. The experimental results on two high-resolution fingerprint image databases show that the proposed algorithm perform well in both accuracy and speed comparing to the existing algorithms.

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来源期刊

IEEE Transactions on Systems Man and Cybernetics Part A-Systems and Humans 工程技术-计算机：控制论

自引率

0.00%

发文量

审稿时长

6.0 months

期刊介绍： The scope of the IEEE Transactions on Systems, Man, and Cybernetics: Systems includes the fields of systems engineering. It includes issue formulation, analysis and modeling, decision making, and issue interpretation for any of the systems engineering lifecycle phases associated with the definition, development, and deployment of large systems. In addition, it includes systems management, systems engineering processes, and a variety of systems engineering methods such as optimization, modeling and simulation.