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A Robust Blind and Secure Watermarking Scheme Using Positive Semi Definite Matrices


Affiliations
1 Department of Computer Science, UHL University, Batna, Algeria
2 Department of Mathematics, UHL University, Batna, Algeria
 

In the last decade the need for new and robust watermarking schemes has been increased because of the large illegal possession by not respecting the intellectual property rights in the multimedia in the internet. In this paper we introduce a novel blind robust watermarking scheme which exploits the positive circulant matrices in frequency domain which is the SVD, Different applications such as copyright protection, control and illicit distributions have been given. Simulation results indicate that the proposed method is robust against attacks as common digital processing: compression, blurring, dithering, printing and scanning, etc. and subterfuge attacks (collusion and forgery) also geometric distortions and transformations. Furthermore, good results of NC (normalized correlation) and PSNR (Peak signal-tonoise ratio) have been achieved while comparing with recent state of the art watermarking algorithms.

Keywords

Circulant Matrix, Digital Image Watermarking, Singular Value Decomposition, Positive Semi-Definite Matrix.
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  • A Robust Blind and Secure Watermarking Scheme Using Positive Semi Definite Matrices

Abstract Views: 354  |  PDF Views: 137

Authors

Noui Oussama
Department of Computer Science, UHL University, Batna, Algeria
Noui Lemnouar
Department of Mathematics, UHL University, Batna, Algeria

Abstract


In the last decade the need for new and robust watermarking schemes has been increased because of the large illegal possession by not respecting the intellectual property rights in the multimedia in the internet. In this paper we introduce a novel blind robust watermarking scheme which exploits the positive circulant matrices in frequency domain which is the SVD, Different applications such as copyright protection, control and illicit distributions have been given. Simulation results indicate that the proposed method is robust against attacks as common digital processing: compression, blurring, dithering, printing and scanning, etc. and subterfuge attacks (collusion and forgery) also geometric distortions and transformations. Furthermore, good results of NC (normalized correlation) and PSNR (Peak signal-tonoise ratio) have been achieved while comparing with recent state of the art watermarking algorithms.

Keywords


Circulant Matrix, Digital Image Watermarking, Singular Value Decomposition, Positive Semi-Definite Matrix.