Title :
A fixed-complexity HEVC inter mode filtering algorithm based on distribution of IME-FME cost ratio
Author :
Jinjia Zhou ; Yizhou Zou ; Dajiang Zhou ; Goto, Satoshi
Abstract :
Motion Estimation (ME) is a key performance bottleneck of H.265/HEVC encoding. In implementing ME, a fixed or bounded complexity is often desired for efficient pipelining and parallelism. We present a fixed-complexity mode filtering algorithm to reduce the complexity of fractional ME (FME). Firstly, a layer filtering is applied to select the mode candidates. Secondly, the ratio of integer-fractional ME costs (Rf/i) is defined and the confidence interval of Rf/i is utilized for further mode selection. Finally, an algorithm to fix the complexity is applied. Experimental results show that the FME encoding time is reduced by 83.3% with slightly BD-rate increase.
Keywords :
computational complexity; filtering theory; motion estimation; video coding; H.265 encoding; HEVC encoding; IME-FME cost ratio distribution; bounded complexity; fixed complexity; fixed-complexity HEVC inter mode filtering algorithm; high efficiency video coding; integer-fractional ME costs; layer filtering; mode candidate selection; motion estimation; parallelism; pipelining; Complexity theory; Encoding; Filtering; Filtering algorithms; Radio frequency; Training; Video coding; H.265; HEVC; fractional motion estimation; inter prediction; mode filtering; motion estimation;
Conference_Titel :
Circuits and Systems (ISCAS), 2015 IEEE International Symposium on
Conference_Location :
Lisbon
DOI :
10.1109/ISCAS.2015.7168709
