Title :
Adaptive fast block-matching algorithm by switching search patterns for sequences with wide-range motion content
Author :
Huang, Shih-Yu ; Cho, Chuan-Yu ; Wang, Jia-Shung
Author_Institution :
Dept. of Comput. Sci. & Inf. Eng., Ming Chuan Univ., Shilin, Taiwan
Abstract :
Content with rapid, moderate, and slow motion is frequently mixed together in real video sequences. Until now, no fast block-matching algorithm (FBMA), including the well-known three-step search (TSS), the block-based gradient descent search (BBGDS), and the diamond search (DS), can efficiently remove the temporal redundancy of sequences with wide range motion content. This paper proposes an adaptive FBMA, called A-TDB, to solve this problem. Based on the characteristics of a proposed predicted profit list, the A-TDB can adaptively switch search patterns among the TSS, DS, and BBGDS, according to the motion content. Experimental results reveal that the A-TDB successfully adopts the search patterns to remove the temporal redundancy of sequences with slow, moderate and rapid motion content.
Keywords :
block codes; gradient methods; motion compensation; motion estimation; search problems; video coding; A-TDB; BBGDS; TSS; adaptive FBMA; block-based gradient descent search; diamond search; fast block-matching algorithm; motion compensation; motion estimation; real video sequence; switch search pattern; three-step search; wide-range motion content; Bit rate; Computer science; Encoding; Frequency selective surfaces; Motion analysis; Motion compensation; Motion estimation; Switches; Transform coding; Video sequences; Block matching; motion compensation; motion estimation;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2005.856931
