The relationship between recall and precision
Journal of the American Society for Information Science
Digital watermarking
Attacks on Copyright Marking Systems
Proceedings of the Second International Workshop on Information Hiding
Efficient Video Authentication for H.264/AVC
ICICIC '06 Proceedings of the First International Conference on Innovative Computing, Information and Control - Volume 3
H.264 Video Authentication Based on Semi-fragile Watermarking
IIH-MSP '08 Proceedings of the 2008 International Conference on Intelligent Information Hiding and Multimedia Signal Processing
Zero memory information sources approximating to video watermarking attacks
ICCSA'07 Proceedings of the 2007 international conference on Computational science and its applications - Volume Part III
Scalar Costa scheme for information embedding
IEEE Transactions on Signal Processing
Image quality assessment: from error visibility to structural similarity
IEEE Transactions on Image Processing
Chaotic Watermarking for Video Authentication in Surveillance Applications
IEEE Transactions on Circuits and Systems for Video Technology
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This paper introduces the theoretical framework allowing for the binary quantization index modulation (QIM) embedding techniques to be extended towards multiple-symbol QIM (m-QIM, where m stands for the number of symbols on which the mark is encoded prior to its embedding). The underlying detection method is optimized with respect to the minimization of the average error probability, under the hypothesis of white, additive Gaussian behavior for the attacks. This way, for prescribed transparency and robustness constraints, the data payload is increased by a factor of log"2m. m-QIM is experimentally validated under the frameworks of the MEDIEVALS French national project and of the SPY ITEA2 European project, related to MPEG-4 AVC robust and semi-fragile watermarking applications, respectively. The experiments are three-folded and consider the data payload-robustness-transparency tradeoff. In the former case, the main benefit is the increase of data payload by a factor of log"2m while keeping fixed robustness (variations lower than 3% of the bit error rate after additive noise, transcoding and Stirmark random bending attacks) and transparency (set to average PSNR=45dB and 65dB for SD and HD encoded content, respectively). The experiments consider 1h of video content. In the semi-fragile watermarking case, the m-QIM main advantage is a relative gain factor of 0.11 of PSNR for fixed robustness (against transcoding), fragility (to content alteration) and the data payload. The experiments consider 1h 20min of video content.