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Reversible Image Watermarking Based on Integer-to-Integer Wavelet Transform


Affiliations
1 Sri Indu College of Engg., Hyd, AP, India
2 Pricol Limited, Hyd, AP, India
     

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This paper proposes a high capacity reversible image watermarking scheme based on integer to integer wavelet transforms. The proposed scheme divides an input image into non-overlapping blocks and embeds a watermark into the high-frequency wavelet coefficients of each block. The conditions to avoid both underflow and overflow in the spatial domain are embedded includes not only messages but also side information used to reconstruct the exact original image. To minimize the mean squared distortion between the original and the watermarked images given a payload, the watermark is adaptively embedded into the image. The experimental results show that the proposed scheme achieves higher embedding capacity while maintaining distortion at a lower level than the existing reversible watermarking schemes.

Keywords

Reversible Watermarking, Wavelet Transform, Watermark Embedding and Extraction.
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  • Reversible Image Watermarking Based on Integer-to-Integer Wavelet Transform

Abstract Views: 211  |  PDF Views: 2

Authors

Sachin Pohar
Sri Indu College of Engg., Hyd, AP, India
K. Ashok Babu
Sri Indu College of Engg., Hyd, AP, India
G. Kesavan Pillai
Pricol Limited, Hyd, AP, India

Abstract


This paper proposes a high capacity reversible image watermarking scheme based on integer to integer wavelet transforms. The proposed scheme divides an input image into non-overlapping blocks and embeds a watermark into the high-frequency wavelet coefficients of each block. The conditions to avoid both underflow and overflow in the spatial domain are embedded includes not only messages but also side information used to reconstruct the exact original image. To minimize the mean squared distortion between the original and the watermarked images given a payload, the watermark is adaptively embedded into the image. The experimental results show that the proposed scheme achieves higher embedding capacity while maintaining distortion at a lower level than the existing reversible watermarking schemes.

Keywords


Reversible Watermarking, Wavelet Transform, Watermark Embedding and Extraction.