Finger Vein Recognition Model for Biometric Authentication Using Intelligent Deep Learning

Int. J. Image Graph. Pub Date : 2021-12-22 DOI:10.1142/s0219467822400046

M. Madhusudhan, V. U. Rani, Chetana Hegde

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引用次数: 5

Abstract

In recent years, biometric authentication systems have remained a hot research topic, as they can recognize or authenticate a person by comparing their data to other biometric data stored in a database. Fingerprints, palm prints, hand vein, finger vein, palm vein, and other anatomic or behavioral features have all been used to develop a variety of biometric approaches. Finger vein recognition (FVR) is a common method of examining the patterns of the finger veins for proper authentication among the various biometrics. Finger vein acquisition, preprocessing, feature extraction, and authentication are all part of the proposed intelligent deep learning-based FVR (IDL-FVR) model. Infrared imaging devices have primarily captured the use of finger veins. Furthermore, a region of interest extraction process is carried out in order to save the finger part. The shark smell optimization algorithm is used to tune the hyperparameters of the bidirectional long–short-term memory model properly. Finally, an authentication process based on Euclidean distance is performed, which compares the features of the current finger vein image to those in the database. The IDL-FVR model surpassed the earlier methods by accomplishing a maximum accuracy of 99.93%. Authentication is successful when the Euclidean distance is small and vice versa.

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基于智能深度学习的指纹静脉识别模型

近年来，生物特征认证系统一直是一个热门的研究课题，因为它可以通过将一个人的数据与存储在数据库中的其他生物特征数据进行比较来识别或认证一个人。指纹、掌纹、手静脉、手指静脉、手掌静脉和其他解剖学或行为特征都被用于开发各种生物识别方法。手指静脉识别(FVR)是多种生物识别技术中检测手指静脉形态以进行身份验证的一种常用方法。手指静脉采集、预处理、特征提取和认证都是所提出的基于智能深度学习的FVR (IDL-FVR)模型的一部分。红外成像设备主要捕捉到手指静脉的使用。此外，为了保存手指部分，还进行了兴趣区域提取。利用鲨鱼气味优化算法对双向长短期记忆模型的超参数进行了适当的调整。最后，进行基于欧几里得距离的身份验证，将当前手指静脉图像的特征与数据库中的特征进行比较。IDL-FVR模型的最高准确率达到99.93%，超过了早期的方法。当欧几里得距离较小时，验证成功，反之亦然。

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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Int. J. Image Graph.

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