Principal component analysis for ear-based biometric verification

2017 International Carnahan Conference on Security Technology (ICCST) Pub Date : 2017-10-01 DOI:10.1109/CCST.2017.8167843

David Querencias-Uceta, Belén Ríos-Sánchez, C. S. Ávila

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引用次数: 9

Abstract

Biometrics is an active research field that is increasingly being integrated into current technology. As a result, more and more people are becoming familiar with biometric technics such as fingerprint or facial recognition. Nevertheless, there are innovative techniques such as ear-based biometrics which are not very well known yet because they are at initial stages of research. In this work, an ear geometry-based biometric verification system oriented to recognition through mobile phones is presented and evaluated. Feature extraction is carried out by means of Principal Component Analysis and feature matching is performed by a distance-based classifier including Euclidean and Eigen distances. The evaluation has been made according to the specifications included in the ISO/IDE 19795 norm following a zero-effort falsification scenario. To this end, a database including ear images of different users has been captured using the camera of a smartphone. The obtained Equal Error Rate matches 1.11% when Euclidean distance is applied for feature comparison and 5.56% in the case of Eigendistance.

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基于耳的生物特征验证主成分分析

生物识别是一个活跃的研究领域，越来越多地与当前的技术相结合。因此，越来越多的人开始熟悉指纹或面部识别等生物识别技术。然而，有一些创新技术，如基于耳朵的生物识别技术，由于它们还处于研究的初始阶段，所以还不是很为人所知。本文提出并评估了一种基于耳朵几何的、面向手机识别的生物特征验证系统。通过主成分分析进行特征提取，并通过基于距离的分类器进行特征匹配，包括欧几里得距离和特征距离。评估是根据ISO/IDE 19795标准中包含的规范在零努力伪造情况下进行的。为此，利用智能手机的摄像头，建立了包含不同用户耳朵图像的数据库。得到的等错误率在欧氏距离下为1.11%，在特征距离下为5.56%。

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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2017 International Carnahan Conference on Security Technology (ICCST)

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