Learning compact binary quantization of Minutia Cylinder Code

2016 International Conference on Biometrics (ICB) Pub Date : 2016-06-13 DOI:10.1109/ICB.2016.7550054

Chaochao Bai, Weiqiang Wang, T. Zhao, Mingqiang Li

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引用次数: 5

Abstract

With explosive growth in fingerprint database, Automatic Fingerprint Identification System (AFIS) has become more difficult than ever. Consequently, it is necessary to get an effective and discriminative fingerprint feature binary representation. In this paper, we firstly analyze the characteristic of Minutia Cylinder Code (MCC) representation to find that it is strongly bit-correlated and with a lossy binary quantization. Accordingly, we propose an optimization model to learn a feature projection matrix resulting in dimensionality reduction as well as diminishing quantization loss. Eventually, the real-valued version of MCC is learnt to get Compact Binary Minutia Cylinder Code (CBMCC) with balanced independent property and minimal binary quantization loss. The performance test shows that CBMCC is effective and discriminative as it has maximum intra-bit variance while minimum inter-bit correlation. Furthermore, numerous experiments on public databases demonstrate that CBMCC is advantageous for fingerprint retrieval since it achieves a high correct index performance with a fairly low penetration rate.

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学习精细圆柱码的紧凑二进制量化

随着指纹数据库的爆炸式增长，自动指纹识别系统(AFIS)变得越来越困难。因此，有必要获得一种有效的、可判别的指纹特征二进制表示。本文首先分析了微圆柱码(MCC)表示的特征，发现它具有强位相关和有损二值量化的特点。因此，我们提出了一种优化模型来学习特征投影矩阵，从而降低维数并减少量化损失。最后，学习MCC的实值版本，得到具有平衡独立性和最小二进制量化损失的紧凑二进制微圆柱码(CBMCC)。性能测试表明，CBMCC具有最大的位内方差和最小的位间相关性，具有有效的判别性。此外，在公共数据库上的大量实验表明，CBMCC在指纹检索中具有优势，因为它在相当低的渗透率下实现了较高的正确索引性能。

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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2016 International Conference on Biometrics (ICB)

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