A Machine Learning Method with Threshold Based Parallel Feature Fusion and Feature Selection for Automated Gait Recognition

Author:

Sharif Muhammad1,Attique Muhammad2,Tahir Muhammad Zeeshan1,Yasmim Mussarat1,Saba Tanzila3ORCID,Tanik Urcun John4

Affiliation:

1. Department of CS, COMSATS University Islamabad, Wah Campus, Wah Cantt, Pakistan

2. Department of Computer Science, HITEC University, Museum Road Taxila, Pakistan

3. Artificial Intelligence & Data Analytics (AIDA) Lab, CCIS Prince Sultan University, Riyadh, Saudi Arabia

4. Texas A&M University-Commerce, Commerce, USA

Abstract

Gait is a vital biometric process for human identification in the domain of machine learning. In this article, a new method is implemented for human gait recognition based on accurate segmentation and multi-level features extraction. Four major steps are performed including: a) enhancement of motion region in frame by the implementation of linear transformation with HSI color space; b) Region of Interest (ROI) detection based on parallel implementation of optical flow and background subtraction; c) shape and geometric features extraction and parallel fusion; d) Multi-class support vector machine (MSVM) utilization for recognition. The presented approach reduces error rate and increases the CCR. Extensive experiments are done on three data sets namely CASIA-A, CASIA-B and CASIA-C which present different variations in clothing and carrying conditions. The proposed method achieved maximum recognition results of 98.6% on CASIA-A, 93.5% on CASIA-B and 97.3% on CASIA-C, respectively.

Publisher

IGI Global

Subject

Strategy and Management,Computer Science Applications,Human-Computer Interaction

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1. BAHGRF3: Human gait recognition in the indoor environment using deep learning features fusion assisted framework and posterior probability moth flame optimisation;CAAI Transactions on Intelligence Technology;2024-08-20

2. E-Business 5.0;Advances in E-Business Research;2024-07-19

3. Human Gait Recognition by using Two Stream Neural Network along with Spatial and Temporal Features;Pattern Recognition Letters;2024-04

4. An Exploration of Gait Datasets and Their Implications;2024 IEEE International Students' Conference on Electrical, Electronics and Computer Science (SCEECS);2024-02-24

5. Ensemble CNN-ViT Using Feature-Level Fusion for Gait Recognition;IEEE Access;2024

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