ICTACT Journal on Image and Video Processing

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Autoregressive Model Based on Bayesian Approach for Texture Representation


Affiliations
1 Department of Computer Science, PSG College of Arts and Science, India
2 Department of Computer Science and Engineering, Anna University, Tiruchirappalli, India
     

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In this study autoregressive model based on Bayesian approach is proposed for texture classification. Based on auto correlation coefficients, micro textures are identified and represented locally and then globally. The identified micro texture is represented as a local description, called texnum. The global descripter, texspectnum, is obtained by simply observing the numbers of occurrences of the texnums that cover the entire image. The proposed representation scheme has been employed in both supervised and unsupervised classifications of textured images. The supervised classification is based on simple tests of hypotheses and the unsupervised classification is based on the modified K-means algorithm with minimum distance classifiers. The proposed method is demonstrated for classification of different types natural textured images. The average correct classification is better than the existing methods.

Keywords

Texnum, Texspectnum, Microtexture, K-Means Algorithm, Supervised and Unsupervised Classification.
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  • Autoregressive Model Based on Bayesian Approach for Texture Representation

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Authors

T. Karthikeyan
Department of Computer Science, PSG College of Arts and Science, India
R. Krishnamoorthy
Department of Computer Science and Engineering, Anna University, Tiruchirappalli, India

Abstract


In this study autoregressive model based on Bayesian approach is proposed for texture classification. Based on auto correlation coefficients, micro textures are identified and represented locally and then globally. The identified micro texture is represented as a local description, called texnum. The global descripter, texspectnum, is obtained by simply observing the numbers of occurrences of the texnums that cover the entire image. The proposed representation scheme has been employed in both supervised and unsupervised classifications of textured images. The supervised classification is based on simple tests of hypotheses and the unsupervised classification is based on the modified K-means algorithm with minimum distance classifiers. The proposed method is demonstrated for classification of different types natural textured images. The average correct classification is better than the existing methods.

Keywords


Texnum, Texspectnum, Microtexture, K-Means Algorithm, Supervised and Unsupervised Classification.