Title :
Robust Multiple Hypothesis Motion Compensated Prediction within the H.264/AVC standard
Author :
Haroun, Tamim ; Labeau, Fabrice
Abstract :
Multiple Hypothesis Motion Compensated Prediction (MHMCP) has been extensively studied and is known to be a very effective method for enhancing the error resilience of motion compensated prediction with little impact on coding efficiency for compressing moving picture sequences. MHMCP with 2 hypotheses (2HMCP) may be used within the H.264/AVC standard by implementing it under the generalized B pictures framework. We explore good implementations of 2HMCP and propose a novel method to further enhance the error resilience by restricting the search areas in each reference frame such that the hypotheses selected from each are not too correlated. We find that there is significant rate-distortion gain, especially for fast moving sequences.
Keywords :
data compression; image coding; image sequences; motion compensation; search problems; H.264/AVC standard; coding efficiency; error resilience; moving picture sequence compression; rate distortion gain; robust multiple hypothesis motion compensated prediction; Bit rate; Encoding; Motion estimation; PSNR; Rate-distortion; Resilience; Video coding; H.264; MHMCP; Multiple Hypothesis Motion Compensated Prediction; Restricted Search Range; Video Coding; video compression;
Conference_Titel :
Image Processing Theory Tools and Applications (IPTA), 2010 2nd International Conference on
Conference_Location :
Paris
Print_ISBN :
978-1-4244-7247-5
DOI :
10.1109/IPTA.2010.5586736
