Temporal-Spatial Correlation Based Mode Decision Algorithm for H.264/AVC Encoder

Author

Zhan, Bin ; Hou, Baochun ; Sotudeh, Reza

Author_Institution

Univ. of Hertfordshire, Hatfield

fYear

2008

fDate

23-25 Jan. 2008

Firstpage

351

Lastpage

355

Abstract

The latest emerging video compression standard, H.264/AVC, achieves better compression performance than previous standards. Variable block size based motion estimation (ME) with optimized mode decision (MD) is one of the most important improvements leading to high quality and low bitrate encoding results. However, such improvement is at the cost of remarkably complex calculation, which is a major bottleneck for some applications, especially in wireless communications. A new MD algorithm is presented in this paper. Taking into account the correlation between macroblocks, the computational complexity is reduced significantly by effectively skipping some unnecessary modes. Experimental results show that the encoding time can be reduced up to 55.26% with negligible loss of encoding efficiency.

Keywords

code standards; data compression; motion estimation; spatiotemporal phenomena; video coding; H.264-AVC encoder; mode decision algorithm; temporal-spatial correlation; variable block size based motion estimation; video compression standard; wireless communication application; Algorithm design and analysis; Automatic voltage control; Communication standards; Computational complexity; Costs; Electronic equipment testing; Encoding; Lagrangian functions; Quadratic programming; Video compression;

fLanguage

English

Publisher

ieee

Conference_Titel

Electronic Design, Test and Applications, 2008. DELTA 2008. 4th IEEE International Symposium on

Conference_Location

Hong Kong

Print_ISBN

978-0-7695-3110-6

Type

conf

DOI

10.1109/DELTA.2008.99

Filename

4459570