An Improved High Capacity and Efficient Data Hiding Scheme for 3D Videos without Distortion Drift

Compared to traditional images and 2D videos, 3D videos are more likely to cause distortion drift problems in data hiding. In this paper, an improved scheme for high capacity and efficient data hiding in 3D videos based on Multi-view coding (MVC) standard is proposed, which avoids the problems of di...

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Bibliographic Details
Published in:IEEE access 2020-01, Vol.8, p.1-1
Main Authors: Song, Guanghua, Liu, Hui
Format: Article
Language:English
Subjects:
Algorithms
coefficient modification
Discrete cosine transform
Discrete cosine transforms
Distortion
distortion drift
Drift
Encoding
multi-view video
Prediction algorithms
Three-dimensional displays
Two dimensional displays
Video
Video data hiding
Videos
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Summary:Compared to traditional images and 2D videos, 3D videos are more likely to cause distortion drift problems in data hiding. In this paper, an improved scheme for high capacity and efficient data hiding in 3D videos based on Multi-view coding (MVC) standard is proposed, which avoids the problems of distortion drift. To improve the visual quality of data hiding, two selection modes are provided to limit the distortion drift. By modifying the selected coefficients of 4Ă—4 quantized discrete cosine transforms (QDCT) in macroblocks and hiding data into b4-frames, the proposed scheme will effectively prevent distortion drift which caused by intra prediction and inter prediction. Moreover, the proposed algorithm maintains great randomness by using two random sequences. Several benchmark 3D video sequences of different resolutions and diverse contents are used for experimental evaluation. It is experimentally proved that the algorithm has greater embedding capacity and higher efficient than the previous methods.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2020.3013033