International Journal of Emerging Trends in Science & Technology

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Analysis of Application of the Coefficient Random Permutation (CRP) in Image Compression and Reconstruction


Affiliations
1 Electronics and Communication Engineering, Dr. N.G.P. Institute of Technology, Coimbatore - 641048, India
     

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The Conventional Compressive Sensing (CSS) which uses non-adaptive projection for the representation of natural images shows inefficient compression performance when compared to JPEG and JPEG 2000 which are the classical image compression standards. This paper investigates one of the methods of Block Compressive Sensing (BCS) called as coefficient random permutation (CRP).The effectiveness of the CRP method lies in balancing the sparsity of the sampled vectors the image's DCT domain and in improving the efficiency of Compressive Sensing Sampling. The analysis shows that the proposed method is effective in reducing the BCSbased image representation dimension and to improve the quality of the recovered image. The proposed method replaces the robust image compression and applications of the encrypted image compressions.

Keywords

Image Representation, Image Compression, Encrypted Image, Robust Coding, Discrete Cosine Transform, Block Compressive Sensing, Coefficient Random Permutation.
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  • Analysis of Application of the Coefficient Random Permutation (CRP) in Image Compression and Reconstruction

Abstract Views: 282  |  PDF Views: 2

Authors

A. Brindha
Electronics and Communication Engineering, Dr. N.G.P. Institute of Technology, Coimbatore - 641048, India

Abstract


The Conventional Compressive Sensing (CSS) which uses non-adaptive projection for the representation of natural images shows inefficient compression performance when compared to JPEG and JPEG 2000 which are the classical image compression standards. This paper investigates one of the methods of Block Compressive Sensing (BCS) called as coefficient random permutation (CRP).The effectiveness of the CRP method lies in balancing the sparsity of the sampled vectors the image's DCT domain and in improving the efficiency of Compressive Sensing Sampling. The analysis shows that the proposed method is effective in reducing the BCSbased image representation dimension and to improve the quality of the recovered image. The proposed method replaces the robust image compression and applications of the encrypted image compressions.

Keywords


Image Representation, Image Compression, Encrypted Image, Robust Coding, Discrete Cosine Transform, Block Compressive Sensing, Coefficient Random Permutation.