TY - GEN
T1 - MPEG-4 AVC perceptual masking. Case study
T2 - 15th IEEE International Symposium on Consumer Electronics, ISCE 2011
AU - Belhaj, Maher
AU - Mitrea, Mihai
AU - Prêteux, Francoise
PY - 2011/9/9
Y1 - 2011/9/9
N2 - Since the pioneering studies of Peterson and Watson, the perceptual masking for raw image has been playing an always increasing role in image processing: compression, filtering, indexing, watermarking, fingerprinting are just examples of application fields exploiting the human visual system peculiarities in order to increase their practical impact. The present study establishes the first accurate perceptual masking model addressing the MPEG-4 AVC domain peculiarities. In other words, we computed the MPEG-4 AVC visibility thresholds, i.e. the maximum amount of additive noise which can imperceptibly affect the quantized values of the intra prediction errors. This new masking model has been tested against other masking models, under the watermarking framework. On the one hand, when imposing a prescribed robustness and a fixed data payload, significant gains in transparency were obtained: the PSNR is increased by 2dB while the Watson's DVQ (Digital Video Quality) is decreased by a half. On the other hand, when imposing a prescribed robustness and transparency, gains in data payload by about 5% are reached.
AB - Since the pioneering studies of Peterson and Watson, the perceptual masking for raw image has been playing an always increasing role in image processing: compression, filtering, indexing, watermarking, fingerprinting are just examples of application fields exploiting the human visual system peculiarities in order to increase their practical impact. The present study establishes the first accurate perceptual masking model addressing the MPEG-4 AVC domain peculiarities. In other words, we computed the MPEG-4 AVC visibility thresholds, i.e. the maximum amount of additive noise which can imperceptibly affect the quantized values of the intra prediction errors. This new masking model has been tested against other masking models, under the watermarking framework. On the one hand, when imposing a prescribed robustness and a fixed data payload, significant gains in transparency were obtained: the PSNR is increased by 2dB while the Watson's DVQ (Digital Video Quality) is decreased by a half. On the other hand, when imposing a prescribed robustness and transparency, gains in data payload by about 5% are reached.
KW - MPEG-4 AVC
KW - data payload
KW - digital watermarking
KW - perceptual masking
KW - transparency
U2 - 10.1109/ISCE.2011.5973900
DO - 10.1109/ISCE.2011.5973900
M3 - Conference contribution
AN - SCOPUS:80052412314
SN - 9781612848433
T3 - Proceedings of the International Symposium on Consumer Electronics, ISCE
SP - 598
EP - 601
BT - ISCE 2011 - 15th IEEE International Symposium on Consumer Electronics
Y2 - 14 June 2011 through 17 June 2011
ER -