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Human Gait Recognition for Biometrics Application Based on Deep Learning Fusion Assisted Framework

Authors
Hanif, Ch AvaisMughal, Muhammad AliKhan, Muhammad AttiqueAlmujally, Nouf AbdullahKim, TaerangCha, Jae-Hyuk
Issue Date
Jan-2024
Publisher
Tech Science Press
Keywords
biometric; covariant factors; deep learning; feature selection; fusion; Gait recognition
Citation
Computers, Materials and Continua, v.78, no.1, pp 357 - 374
Pages
18
Indexed
SCIE
SCOPUS
Journal Title
Computers, Materials and Continua
Volume
78
Number
1
Start Page
357
End Page
374
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195210
DOI
10.32604/cmc.2023.043061
ISSN
1546-2218
1546-2226
Abstract
The demand for a non-contact biometric approach for candidate identification has grown over the past ten years. Based on the most important biometric application, human gait analysis is a significant research topic in computer vision. Researchers have paid a lot of attention to gait recognition, specifically the identification of people based on their walking patterns, due to its potential to correctly identify people far away. Gait recognition systems have been used in a variety of applications, including security, medical examinations, identity management, and access control. These systems require a complex combination of technical, operational, and definitional considerations. The employment of gait recognition techniques and technologies has produced a number of beneficial and well-liked applications. This work proposes a novel deep learning-based framework for human gait classification in video sequences. This framework’s main challenge is improving the accuracy of accuracy gait classification under varying conditions, such as carrying a bag and changing clothes. The proposed method’s first step is selecting two pre-trained deep learning models and training from scratch using deep transfer learning. Next, deep models have been trained using static hyperparameters; however, the learning rate is calculated using the particle swarm optimization (PSO) algorithm. Then, the best features are selected from both trained models using the Harris Hawks controlled Sine-Cosine optimization algorithm. This algorithm chooses the best features, combined in a novel correlation-based fusion technique. Finally, the fused best features are categorized using medium, bi-layer, and tri-layered neural networks. On the publicly accessible dataset known as the CASIA-B dataset, the experimental process of the suggested technique was carried out, and an improved accuracy of 94.14% was achieved. The achieved accuracy of the proposed method is improved by the recent state-of-the-art techniques that show the significance of this work.
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