An artificial intelligence based multimodal biometric recognition using Fully Convolutional Residual Neural Network

Q4 Engineering

ARPN Journal of Engineering and Applied Sciences Pub Date : 2023-12-11 DOI:10.59018/1023272

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引用次数: 0

Abstract

The protection of biometric information is rapidly becoming an increasingly significant challenge in the field of data security. In recent years, there has been a precipitous growth in the number of research endeavours being performed in biometrics. This surge in research endeavours has been driven by a growing interest in the discipline. It is still difficult to solve the problem of developing a multimodal biometric system (MBS) with improved accuracy and recognition rate for use in smart cities. The numerous works have all used MBSs, which has led to a reduction in the security criteria that are required. Because of this, the major focus of this study is centred on the creation of a multimodal biometric recognition system (MBRS) via the utilisation of deep learning Fully Convolutional Residual Neural Network (FCRN) classification. A Gaussian filter is first applied to the images obtained from the ear, face, fingerprint, iris, and palmprint databases. This step is performed at the very beginning of the process. This causes the photos to go through pre-processing, which gets rid of the many kinds of noise that were presented. In addition, the grey level co-occurrence matrix, also known as the GLCM, is used to derive the multimodal properties. Following that, Particle Swarm Optimization (PSO) and Principal Component Analysis (PCA) are utilized so that the total number of features can be reduced to the smallest possible amount. The PSO is utilised so that features can be picked and selects the characteristics from the available set that are the most helpful. Finally, the FCRN classifier is used so that the biometric recognition technique can be carried out by using the training PSO features from the test dataset. In conclusion, the findings of the simulation reveal that the implementation of the suggested MBRS-FCRN led to a reduction in losses and an improvement in accuracy in comparison to previous approaches. The proposed MBRS-FCRN achieved an accuracy of 98.179%, sensitivity of 98.346%, and specificity of 98.186% compared to existing methods.

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使用全卷积残差神经网络的基于人工智能的多模态生物识别技术

保护生物识别信息正迅速成为数据安全领域日益严峻的挑战。近年来，生物识别领域的研究工作急剧增加。对这门学科日益浓厚的兴趣推动了研究工作的激增。要开发出一种准确率和识别率更高的多模态生物识别系统（MBS）用于智慧城市，仍然是一个难以解决的问题。众多研究都使用了多模态生物识别系统，这导致了所需安全标准的降低。因此，本研究的主要重点是通过利用深度学习全卷积残差神经网络（FCRN）分类来创建多模态生物识别系统（MBRS）。首先对从耳朵、脸部、指纹、虹膜和掌纹数据库中获取的图像进行高斯滤波。这一步骤在流程的一开始就进行。这样，照片就经过了预处理，从而去除了各种噪音。此外，灰度共现矩阵（又称 GLCM）也被用来推导多模态属性。然后，利用粒子群优化（PSO）和主成分分析（PCA）将特征总数减少到尽可能少。利用 PSO 可以挑选特征，并从可用的特征集中选择最有用的特征。最后，使用 FCRN 分类器，这样就可以利用测试数据集中的 PSO 训练特征来执行生物识别技术。总之，模拟结果表明，与以前的方法相比，建议的 MBRS-FCRN 的实施减少了损失，提高了准确性。与现有方法相比，建议的 MBRS-FCRN 实现了 98.179% 的准确率、98.346% 的灵敏度和 98.186% 的特异性。

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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来源期刊

ARPN Journal of Engineering and Applied Sciences Engineering-Engineering (all)

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： ARPN Journal of Engineering and Applied Sciences (ISSN 1819-6608) is an online peer-reviewed International research journal aiming at promoting and publishing original high quality research in all disciplines of engineering sciences and technology. All research articles submitted to ARPN-JEAS should be original in nature, never previously published in any journal or presented in a conference or undergoing such process across the globe. All the submissions will be peer-reviewed by the panel of experts associated with particular field. Submitted papers should meet the internationally accepted criteria and manuscripts should follow the style of the journal for the purpose of both reviewing and editing. Our mission is -In cooperation with our business partners, lower the world-wide cost of research publishing operations. -Provide an infrastructure that enriches the capacity for research facilitation and communication, among researchers, college and university teachers, students and other related stakeholders. -Reshape the means for dissemination and management of information and knowledge in ways that enhance opportunities for research and learning and improve access to scholarly resources. -Expand access to research publishing to the public. -Ensure high-quality, effective and efficient production and support good research and development activities that meet or exceed the expectations of research community. Scope of Journal of Engineering and Applied Sciences: -Engineering Mechanics -Construction Materials -Surveying -Fluid Mechanics & Hydraulics -Modeling & Simulations -Thermodynamics -Manufacturing Technologies -Refrigeration & Air-conditioning -Metallurgy -Automatic Control Systems -Electronic Communication Systems -Agricultural Machinery & Equipment -Mining & Minerals -Mechatronics -Applied Sciences -Public Health Engineering -Chemical Engineering -Hydrology -Tube Wells & Pumps -Structures

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