Robust image watermarking based on Tucker decomposition and Adaptive-Lattice Quantization Index Modulation

• Published in: Signal processing. Image communication Vol. 41; pp. 1 - 14
• Main Authors: Feng, Bingwen, Lu, Wei, Sun, Wei, Huang, Jiwu, Shi, Yun-Qing
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.02.2016
• Subjects: Adaptive-Lattice Quantization Index Modulation; Decomposition; Distortion; Image watermarking; Mathematical analysis; Modulation; Quantization; Structural SIMilarity; Tensor; Tensors; Tucker Decomposition; Watermarking; Structural SIMilarity; Image watermarking; Tensor; Adaptive-Lattice Quantization Index Modulation; Tucker Decomposition
• ISSN: 0923-5965; 1879-2677
• DOI: 10.1016/j.image.2015.10.007

In this paper, a robust blind image watermarking scheme with a good rate distortion-robustness tradeoff is proposed by adopting both Tucker Decomposition (TD) and Adaptive-Lattice Quantization Index Modulation (A-LQIM). Inspired by the good properties provided by TD, such as content-based representation and stable decomposition under distortions, the core tensor of TD is computed from the host image to carry watermarks. The two coarsest coefficients in each frontal slice of the core tensor are considered as a host vector, into which one watermark bit is embedded by using Lattice Quantization Index Modulation (LQIM). In order to further improve the watermarked image quality, an A-LQIM method is proposed to control the embedding strength on each host vector by approximately minimizing the Structural SIMilarity (SSIM)-measured perceptual distortion. Optimal parameters for each embedding are obtained according to the host image. Experimental results have demonstrated that the proposed scheme provides high robustness against common attacks without degrading the image quality compared with state-of-the-art schemes. •Tucker Decomposition is applied to extract host vectors.•The stability of Tucker Decomposition is discussed and proved.•Adaptive-Lattice QIM is proposed to modulate local embedding strength.•The performance of the proposed scheme for real images is analytically discussed.•The proposed scheme provides high robustness without degrading image quality.