Gait recognition using GEI and curvelet

Gait recognition using GEI and curvelet

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摘要 Gait energy image(GEI)is composed of static body silhouette and dynamic frequency information of human gait.To achieve fast and efficient gait recognition,combined with the accurate description of the information of details and directions in image by Curvelet transform,a gait recognition method using GEI and Curvelet(GEIC)is presented.Firstly,to gain the gait energy images,the gait cycle is selected according to the aspect ratio.Secondly,Curvelet energy coefficients of the GEI,which are used as gait feature vector,are extracted by Curvelet transform in different scales and different directions.Finally,the gait recognition is accomplished by the K nearest neighbor(KNN)classifier.The experimental results demonstrate that GEIC performs well on CASIA(B)database,with the average accuracy of 86.83%.Compared with GEI+KPCA,GEI+W(2D)2PCA and GEI+(2D)~2PCA,the algorithm GEIC achieves better robustness in the condition of the person wearing or packaging. Gait energy image（GEI）is composed of static body silhouette and dynamic frequency information of human gait.To achieve fast and efficient gait recognition,combined with the accurate description of the information of details and directions in image by Curvelet transform,a gait recognition method using GEI and Curvelet（GEIC）is presented.Firstly,to gain the gait energy images,the gait cycle is selected according to the aspect ratio.Secondly,Curvelet energy coefficients of the GEI,which are used as gait feature vector,are extracted by Curvelet transform in different scales and different directions.Finally,the gait recognition is accomplished by the K nearest neighbor（KNN）classifier.The experimental results demonstrate that GEIC performs well on CASIA（B）database,with the average accuracy of 86.83%.Compared with GEI＋KPCA,GEI＋W（2D）2PCA and GEI＋（2D）^2PCA,the algorithm GEIC achieves better robustness in the condition of the person wearing or packaging.

作者 Jing Luo Chunyuan Zi Jianliang Zhang Yue Liu

机构地区 Key Laboratory of Advanced Electrical Engineering and Energy Technology College of Electrical Engineering and Automation School of Electrical

出处《光电工程》 CAS CSCD 北大核心 2017年第4期400-404,468,共6页 Opto-Electronic Engineering

基金 The Graduate Education Steering Committee of National Engineering Professional Degree (2016-ZX-064) Natural Science Foundation of Tianjin of China (16JCYBJC 15400)

关键词动态频率步态识别方法发展现状步态特征向量 gait recognition GEl curvelet decomposition curvelet feature extraction KNN

分类号 TM935.1 [电气工程—电力电子与电力传动]

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Gait recognition using GEI and curvelet

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