Title :
Motion compensated video compression using adaptive transformations
Author :
Diab, Zafer ; Cohen, Paul
Abstract :
Block-based motion compensation fails to maintain an acceptable level of prediction error which makes the transmission of this error impossible for very low bit-rate coding owing to the small bit allocation. The reason is that the motion model assumed in block-based techniques cannot approximate the motion in the real world precisely. To develop an effective motion compensation method for very low bit-rate video coding, we address the issue of adopting more sophisticated motion model than block-based. The motion model discussed here is based on the representation of optical flow in its principal components domain. The performance of motion compensation based on this model is compared with MPEG using the PSNR measure and qualitative experiments. Both of these criterias show a gain of compression in the order of 30%
Keywords :
adaptive codes; data compression; image reconstruction; image representation; image sequences; motion compensation; transform coding; video coding; MPEG; PSNR measure; adaptive transformations; block based motion compensation; compression gain; image reconstruction; motion compensated video compression; motion compensation method; motion model; optical flow representation; prediction error; principal components domain; qualitative experiments; very low bit rate coding; Bit rate; Decoding; Image coding; Image reconstruction; Motion compensation; Motion estimation; Optical devices; Pixel; Video coding; Video compression;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1997. ICASSP-97., 1997 IEEE International Conference on
Print_ISBN :
0-8186-7919-0
DOI :
10.1109/ICASSP.1997.595391
