TY - GEN
T1 - A parametric window design for OBMC with variable block size motion estimates
AU - Chen, Yi Wen
AU - Wang, Tse Wei
AU - Tseng, Yu Cheng
AU - Peng, Wen-Hsiao
AU - Lee, Suh Yin
PY - 2009
Y1 - 2009
N2 - This paper addresses the problem of adapting overlapped block motion compensation (OBMC) windows for use with variable blocksize motion estimates. We tackle the problem by using a parametric window design, which expresses, based on a statistical motion model, the optimal weights as a function of the distances between the predicted pixel and its nearby block centers. The formula enables both prediction weights and prediction order to be adapted on a pixel-by-pixel basis. Extensive experiments have been conducted using JM 12.4. Compared with conventional block motion compensation, our scheme shows a bitrate saving of 18% (5% on average) while maintaining the same or even higher PSNR (0.1dB). It also provides a competitive advantage to variable block size motion compensation. Additionally, a hybrid of the two techniques achieves a further bitrate reduction of 13%. The result, nevertheless, provides only a lower bound on what is achievable since both motion estimation and mode decision were accomplished without considering OBMC. Further improvement is expected by incorporating iterative methods.
AB - This paper addresses the problem of adapting overlapped block motion compensation (OBMC) windows for use with variable blocksize motion estimates. We tackle the problem by using a parametric window design, which expresses, based on a statistical motion model, the optimal weights as a function of the distances between the predicted pixel and its nearby block centers. The formula enables both prediction weights and prediction order to be adapted on a pixel-by-pixel basis. Extensive experiments have been conducted using JM 12.4. Compared with conventional block motion compensation, our scheme shows a bitrate saving of 18% (5% on average) while maintaining the same or even higher PSNR (0.1dB). It also provides a competitive advantage to variable block size motion compensation. Additionally, a hybrid of the two techniques achieves a further bitrate reduction of 13%. The result, nevertheless, provides only a lower bound on what is achievable since both motion estimation and mode decision were accomplished without considering OBMC. Further improvement is expected by incorporating iterative methods.
UR - http://www.scopus.com/inward/record.url?scp=74349096385&partnerID=8YFLogxK
U2 - 10.1109/MMSP.2009.5293287
DO - 10.1109/MMSP.2009.5293287
M3 - Conference contribution
AN - SCOPUS:74349096385
SN - 9781424444649
T3 - 2009 IEEE International Workshop on Multimedia Signal Processing, MMSP '09
BT - 2009 IEEE International Workshop on Multimedia Signal Processing, MMSP '09
T2 - 2009 IEEE International Workshop on Multimedia Signal Processing, MMSP '09
Y2 - 5 October 2009 through 7 October 2009
ER -