Combining 2D and 3D hand geometry features for biometric verification

Vivek Kanhangad, Ajay Kumar, David Zhang
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引用次数: 54

Abstract

Traditional hand geometry based personal verification systems offer limited performance and therefore suitable only for small scale applications. This paper investigates a new approach to achieve performance improvement for hand geometry systems by simultaneously acquiring three dimensional features from the presented hands. The proposed system utilizes a laser based 3D digitizer to acquire registered intensity and range images of the presented hands in a completely contact-free manner, without using any hand position restricting mechanism. Two new representations that characterize the local features on the finger surface are extracted from the acquired range images and are matched using the proposed matching metrics. The proposed approach is evaluated on a database of 177 users, with 10 hand images for each user acquired in two sessions. Our experimental results suggest that the proposed 3D hand geometry features have significant discriminatory information to reliably authenticate individuals. Our experimental results also demonstrate that the combination of 3D hand geometry features with 2D geometry features can be employed to significantly improve the performance from 2D hand geometry features alone.
结合2D和3D手部几何特征进行生物识别验证
传统的基于手几何的个人验证系统提供有限的性能,因此只适用于小规模应用。本文研究了一种通过同时获取手的三维特征来提高手几何系统性能的新方法。该系统利用基于激光的三维数字化仪以完全无接触的方式获取所呈现手的注册强度和距离图像,而不使用任何手部位置限制机构。从获取的距离图像中提取两种新的表征手指表面局部特征的表示,并使用提出的匹配度量进行匹配。该方法在177个用户的数据库上进行了评估,每个用户在两个会话中获得10张手图像。实验结果表明,所提出的三维手部几何特征具有显著的判别信息,可以可靠地对个体进行身份验证。我们的实验结果还表明,3D手几何特征与2D手几何特征的结合可以显著提高单独使用2D手几何特征的性能。
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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