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All figures (11)
Fig. 1. Scope of video coding standardization.
Fig. 5. Progressive and interlaced frames and fields.
Fig. 2. Structure of H.264/AVC video encoder.
Fig. 18. Evolution of H.264/AVC since August 1999 until March 2003. Top: QCIF sequence Foreman coded at 10 Hz. Bottom: CIF sequence tempete coded at 30 Hz. The legend in the top figure indicates the various versions that have been run with typical settings.
Fig. 12. Segmentations of the macroblock for motion compensation. Top: segmentation of macroblocks, bottom: segmentation of 8 8 partitions.
Fig. 8. Basic coding structure for H.264/AVC for a macroblock.
Fig. 9. Conversion of a frame macroblock pair into a field macroblock pair.
Fig. 15. Repeated transform for chroma blocks. The four blocks numbered 0–3 indicate the four chroma blocks of a chroma component of a macroblock.
Fig. 4. Structure of an access unit.
Fig. 3. Parameter set use with reliable “out-of-band” parameter set exchange.
TABLE I HISTORY OFH.264/AVC STANDARDIZATION PROCESS. FOR TML V ERSIONS WITH A , NO SOFTWARE HASBEEN CREATED
Journal Article
•
DOI
•
Overview of the H.264/AVC video coding standard
[...]
Thomas Wiegand
1
,
Gary J. Sullivan
2
,
G. Bjontegaard
,
Ajay Luthra
3
•
Institutions (3)
Heinrich Hertz Institute
1
,
Microsoft
2
,
Motorola
3
01 Jul 2003
-
IEEE Transactions on Circuits and Systems for Video Technology