Title :
Motion-compensated wavelet transform coding for color video compression
Author :
Zhang, Ya-Qin ; Zafar, Sohail
Author_Institution :
GTE Labs. Inc., Waltham, MA, USA
fDate :
9/1/1992 12:00:00 AM
Abstract :
A variable-block-size multiresolution motion compensation (MRMC) scheme in which the size of a block is adapted to its level in the wavelet pyramid is proposed. This scheme not only considerably reduces the searching and matching time but also provides a meaningful characterization of the intrinsic motion structure. The variable-block-size approach also avoids the drawback of the constant-size MRMC in describing small object motion activities. After wavelet decomposition, each scaled subframe tends to have different statistical properties. An adaptive truncation process is implemented, and a bit allocation scheme similar to that in transform coding is examined. Four variations of the proposed motion-compensated wavelet video compression system are identified, and it is shown that the coding approach has a superior performance in terms of the peak-to-peak signal-to-noise ratio as well as the subjective quality
Keywords :
colour television; data compression; encoding; picture processing; transforms; video signals; adaptive truncation; bit allocation; color video compression; motion compensation; multiresolution motion compensation; peak to peak SNR; signal-to-noise ratio; statistical properties; subjective quality; variable block size; wavelet decomposition; wavelet pyramid; wavelet transform coding; Discrete wavelet transforms; Frequency; Humans; Image coding; Image processing; Image resolution; Motion compensation; Signal resolution; Transform coding; Video compression;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
