DocumentCode
3225649
Title
Drift Characterization of Intra Prediction and Quantization in H.264
Author
Leontaris, Athanasios ; Tourapis, Alexis M.
Author_Institution
Dolby Lab. Inc, San Francisco
fYear
2008
fDate
25-27 March 2008
Firstpage
212
Lastpage
221
Abstract
The combination of intra prediction, transform, and quantization in the H.264/AVC video coding standard offers high compression performance in picture areas where inter prediction is unavailable or fails. Motivated from coding experiments with the reference software that resulted in significant visual distortion with certain types of content, we investigated intra prediction further. Intra prediction may propagate distortion to subsequent blocks or macroblocks. As a result, rate-distortion optimized mode decision needs to account for this distortion. Furthermore, rounding operations in H.264/AVC accumulate small but non-trivial errors. This is especially true for the encoding process of the 16 times 16 intra prediction mode, which involves a combination of DCT and Hadamard transforms. We investigate, theoretically and experimentally, the problem of visual distortion caused by sub-optimal intra prediction coding decisions by modeling distortion propagation across subsequent blocks. We propose two algorithms that address the problem.
Keywords
Hadamard transforms; discrete cosine transforms; vector quantisation; video coding; DCT transform; H.264 AVC video coding; Hadamard transform; compression performance; distortion propagation; drift characterization; encoding; intraprediction; macroblocks; quantization; rate distortion optimized mode decision; rounding operation; visual distortion; Automatic voltage control; Data compression; Discrete cosine transforms; Encoding; Image coding; Laboratories; Quadratic programming; Quantization; Rate-distortion; Video coding; Drift; H.264; intra prediction; quantization;
fLanguage
English
Publisher
ieee
Conference_Titel
Data Compression Conference, 2008. DCC 2008
Conference_Location
Snowbird, UT
ISSN
1068-0314
Print_ISBN
978-0-7695-3121-2
Type
conf
DOI
10.1109/DCC.2008.53
Filename
4483299
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