This article proposes an integrated system for segmentation and classification of two moving objects, including car and pedestrian from their side‐view in a video sequence. Based on the use of grey‐level co‐occurrence matrix (GLCM) in Haar wavelet transformed space, the authors calculated features of texture data from different sub‐bands separately. Haar wavelet transform is chosen because the resulting wavelet sub‐bands are strongly affecting on the orientation elements in the GLCM computation. To evaluate the proposed method, the results of different sub‐bands are compared with each other. Extracted features of objects are classified by using a support vector machine (SVM). Finally, the experimental results showed that use of three sub‐bands of wavelets instead of two sub‐bands is more effective and has good precision.
Using GLCM features in Haar wavelet transformed space for moving object classification
IET Intelligent Transport Systems ; 13 , 7 ; 1148-1153
2019-07-01
6 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
co‐occurrence matrix , orientation elements , pedestrian , wavelet transforms , segmentation , texture data , resulting wavelet sub‐bands , wavelets , extracted features , image texture , matrix algebra , image classification , object classification , integrated system , video sequence , different sub‐bands , experimental results , feature extraction , support vector machines , Haar , moving objects , Haar transforms , GLCM features , GLCM computation , car
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