Abstract
Depth-image-based rendering (DIBR), where arbitrary views are synthesized from a center image and depth image, has received much attention in the three-dimensional (3D) research field. With advances in depth-acquisition techniques and the proliferation of 3D glasses and 3D display devices, there is a growing demand for schemes to protect the copyrights of DIBR 3D images. Digital watermarking is a typical protection technology and designing a watermarking method for DIBR 3D images is a challenging task because the synchronization of watermarks can easily be broken in the process of generating synthetic images. To address this issue, we propose a non-subsampled contourlet transform (NSCT)-based blind watermarking for DIBR 3D images. To ensure the proposed method has properties of robustness against the DIBR process, we conduct an analysis of robustness for NSCT subbands against DIBR attacks. Based on the analysis results, we select subbands that are robust against DIBR attacks and embed watermark in the low coefficients of NSCT subbands using quantization-based embedding. While ensuring robustness, the proposed method also improves the imperceptibility of watermarks by adjusting their embedding strength according to computed perceptual masking values. Through experiments, we show that the proposed method is robust against both desynchronization attacks of the DIBR process and common attacks including signal processing operations and geometric distortions. The high imperceptibility of our method is also verified by several evaluation metrics in a subjective and objective manner.
Highlights
Three-dimensional (3D) content has been attracting a lot of attention from various industries and viewers
We believe that the non-subsampled contourlet transform (NSCT) domain, which has not previously been used for Depth-image-based rendering (DIBR) 3D image watermarking, is advantageous for securing invisibility and robustness compared to other domains such as discrete cosine transform (DCT) and dual tree complex transform (DTCWT) domains
Our work is the first study to apply the NSCT domain with the shift invariance property to watermarking for DIBR 3D images, and we showed that the NSCT
Summary
Three-dimensional (3D) content has been attracting a lot of attention from various industries and viewers. Baseline distance adjustment By adjusting the baseline distance, the parallax of the synthesized left and right views can be controlled; This affects the distance that pixels move horizontally This implies that robust watermarking is in high demand for DIBR 3D images, which should be robust against the above three attack types, referred to as DIBR attacks in this paper. We focus on designing a watermarking method that is robust against desynchronization attacks that occur in the DIBR process, taking into consideration the watermarking methods’ fundamental requirements [15], [16] including robustness, imperceptibility, blind extraction, and sufficient watermark capacity. Because the NSCT domain has the property of shift invariance, it was considered suitable for DIBR 3D image watermarking, which was confirmed through the results of the robustness analysis and various experiments in Sections IV and VI.
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