Title :
Motion-compensated 3-D subband coding of video
Author :
Choi, Seung-Jong ; Woods, John W.
Author_Institution :
Center for Image Process. Res., Rensselaer Polytech. Inst., Troy, NY, USA
fDate :
2/1/1999 12:00:00 AM
Abstract :
This paper describes a video coding system based on motion-compensated three-dimensional (3-D) subband/wavelet coding (MC-3DSBC), which can overcome the limits of both 3-D SBC and MC prediction-based coding. In this new system, spatio-temporal subbands are generated by MC temporal analysis and a spatial wavelet transform, and then encoded by 3-D subband-finite state scalar quantization (3DSB-FSSQ). The rate allocation from the GOP level to each class of subbands is optimized by utilizing the structural property of MC-3DSBC that additive superposition approximately holds for both rate and distortion. The proposed video coding system is applied to several test video clips. Its performance exceeds that of both a known MPEG-1 implementation and a similar subband MC predictive coder while maintaining modest computational complexity and memory size
Keywords :
computational complexity; motion compensation; quantisation (signal); transform coding; video coding; wavelet transforms; 3D subband-finite state scalar quantization; GOP level; MC temporal analysis; computational complexity; memory size; motion-compensated 3D subband coding; performance; rate allocation; spatial wavelet transform; spatio-temporal subbands; three-dimensional subband/wavelet coding; video coding; Additives; Discrete cosine transforms; Filtering; Image coding; Matched filters; Quantization; Spatiotemporal phenomena; Video coding; Wavelet analysis; Wavelet transforms;
Journal_Title :
Image Processing, IEEE Transactions on
