DocumentCode
1065945
Title
MPEG Motion Picture Coding With Long-Term Constraint on Distortion Variation
Author
Wang, Kai ; Woods, John W.
Author_Institution
Qualcomm Inc., San Diego
Volume
18
Issue
3
fYear
2008
fDate
3/1/2008 12:00:00 AM
Firstpage
294
Lastpage
304
Abstract
A highly desirable feature in storage video applications is uniform quality. Variable bit rate (VBR) coding has the potential to produce nearly constant quality throughout an entire movie. This can be defined as a bit allocation problem with a long-term constraint on distortion variation. We consider the optimal bit allocation with multiple constraints including disk capacity and the distortion bounds on the individual frames. We find the theoretical optimality conditions and propose a practical iterative solution based on the Lagrangian methods. While minimizing average distortion and distortion variation cannot be achieved simultaneously for a given bit budget, the proposed algorithms are able to efficiently balance the tradeoff between the two goals. The computational complexity of the exact rate-distortion (R - D) functions for real movies is addressed by a statistical R - D model proposed in this work. Based on the generic block-based motion compensated transform coding theories, the model is formed by a rate-quantization (R - Q) function and the corresponding distortion-quantization (D - Q) function. A novel two-pass MPEG-2 VBR encoder based on the proposed algorithms is developed for coding with long-term nearly constant quality. Experimental results are promising and the encoder effectively achieves the fit-to-disc function and at the same time controls objective quality variation. By incorporating basic subjective coding techniques into the encoder, significant visual quality improvement is observed during the subjective tests.
Keywords
block codes; computational complexity; discrete cosine transforms; iterative methods; motion compensation; quantisation (signal); rate distortion theory; statistical analysis; transform coding; variable rate codes; video coding; Lagrangian methods; MPEG motion picture coding; block-based motion compensated DCT transform coding; computational complexity; distortion variation; distortion-quantization function; iterative solution; long-term constraint; optimal bit allocation; rate-distortion functions; statistical R-D model; storage video applications; two-pass MPEG-2 VBR encoder; variable bit rate coding; Constant quality; MPEG; VBR; constant quality; distortion-constrained; fit-to- disk; fit-to-disk; perceptual coding; rate-distortion; variable bit rate (VBR);
fLanguage
English
Journal_Title
Circuits and Systems for Video Technology, IEEE Transactions on
Publisher
ieee
ISSN
1051-8215
Type
jour
DOI
10.1109/TCSVT.2008.918442
Filename
4449086
Link To Document