Paper Info
Title
Novel robust zero-watermarking scheme for digital rights management of 3D videos.
Abstract
Digital watermarking is an effective technique for the digital rights management (DRM) of three-dimensional (3D) videos, which is still a crucial issue in the field of 3D televisions. The current watermarking schemes for 3D videos can be classified into two main categories: One embeds watermarks into 2D video frames, and the other embeds watermarks into depth maps. The former causes irreversible distortions to synthesized 3D videos whereas the latter is insufficiently robust against some of normal video attacks. Moreover, because these watermarking schemes only embed watermarks into either 2D video frames or depth maps of 3D videos, none of them can protect the copyrights of these two parts simultaneously and independently. To address those problems, a novel robust zero-watermarking scheme for the DRM of 3D videos is proposed in this study. In the proposed scheme, master shares are first generated by extracting features from temporally informative representative images (TIRIs) of both the 2D video frames and depth maps. Then, ownership shares, which denote the relationships between copyright information and master shares, are generated based on the Visual Secret Sharing (VSS) scheme and stored for copyright identification. Finally, copyright ownerships are identified by stacking master shares and ownership shares. The experiment results demonstrate that the proposed scheme outperforms the current state-of-the-art watermarking schemes because it does not cause any distortion to the synthesized 3D videos, exhibits strong robustness against various video attacks, and protects the copyrights of 2D video frames and depth maps of 3D videos simultaneously and independently. A robust lossless zero-watermarking scheme for the digital rights management (DRM) of DIBR-based 3D videos is proposed.The proposed scheme is based on Visual Secret Sharing and fully utilizes the robust content-based features of both 2D frames and depth maps of 3D videos.The copyrights of 2D video frames and depth maps of 3D videos are protected simultaneously and independently by designing a flexible copyright identification mechanism to fully satisfy the DRM requirements of different DIBR-based 3D videos.
Year
DOI
Venue
2017
10.1016/j.image.2017.03.002
Sig. Proc.: Image Comm.
Keywords
Field
DocType
3D video,Digital rights management,Zero-watermarking,Temporally informative representative image,Visual secret sharing scheme
Computer vision,Digital watermarking,Secret sharing,Computer science,Robustness (computer science),Artificial intelligence,Distortion,Digital rights management,Lossless compression
Journal
Volume
Issue
ISSN
54
C
0923-5965
Citations 
PageRank 
References 
5
0.45
21
Authors
6
Name
Order
Citations
PageRank
Xiyao Liu1133.97
Rongchang Zhao2304.63
Fangfang Li3112.56
Shenghui Liao47014.44
Yipeng Ding5133.79
Beiji Zou623141.61