Artificial Intelligent Systems and Machine Learning

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Recognition of Occluded Objects Using Wavelet Transform


Affiliations
1 Sathyabama University, India
2 Cognizant Technology Solutions, Chennai, India
     

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This paper presents an approach for the recognition of multiple view objects based on wavelet transform, even when come portion of the object is occluded. Object recognition is achieved by extracting the energy computed from all the sub-bands of Discrete Wavelet Transform (DWT) fused with the colour moments. Therefore the proposed method considers not only the frequency relationship but also the spatial relationship of pixels in the objects. The extracted features are used as an input to the K Nearest Neighbor (K-NN) for classification. The evaluation of the system is carried on using COIL database and the performance of the proposed system is studied by varying the training set sizes. The experiment was extended further to cover objects that were partly occluded. Experimental results show that the proposed method produces more accurate classification rate, even with partial occlusion.

Keywords

Wavelet Transform, Colour Moments, KNN Classifier, Object Recognition, Occlusion.
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  • Recognition of Occluded Objects Using Wavelet Transform

Abstract Views: 179  |  PDF Views: 4

Authors

V. Subbaroyan
Sathyabama University, India
S. Karthik
Cognizant Technology Solutions, Chennai, India

Abstract


This paper presents an approach for the recognition of multiple view objects based on wavelet transform, even when come portion of the object is occluded. Object recognition is achieved by extracting the energy computed from all the sub-bands of Discrete Wavelet Transform (DWT) fused with the colour moments. Therefore the proposed method considers not only the frequency relationship but also the spatial relationship of pixels in the objects. The extracted features are used as an input to the K Nearest Neighbor (K-NN) for classification. The evaluation of the system is carried on using COIL database and the performance of the proposed system is studied by varying the training set sizes. The experiment was extended further to cover objects that were partly occluded. Experimental results show that the proposed method produces more accurate classification rate, even with partial occlusion.

Keywords


Wavelet Transform, Colour Moments, KNN Classifier, Object Recognition, Occlusion.