Title :
Scene-context-dependent reference-frame placement for MPEG video coding
Author :
Lan, Austin Y. ; Nguyen, Anthony G. ; Hwang, Jenq-Neng
Author_Institution :
Dept. of Electr. Eng., Washington Univ., Seattle, WA, USA
fDate :
4/1/1999 12:00:00 AM
Abstract :
The MPEG video-compression standard effectively exploits spatial, temporal, and coding redundancies in the algorithm. In its generic form, however, only a minimal amount of scene adaptation is performed. Video can be further compressed by taking advantage of scenes where the temporal statistics allow larger interreference-frame distances. This paper proposes the use of motion analysis (MA) to adapt to scene content. The actual picture type [intracoded (I), predicted (P), or bidirectionally coded (B)] decision is made by examining the accumulation of motion measurements since the last reference frame (either I or P) was labeled. The proposed MA-based adaptive reference frame-placement scheme outperforms the standard fixed-reference frame-placement and adaptive schemes based on histogram of difference. When compared with the standard fixed scheme, depending on the video contents, this proposed algorithm can achieve from 2 to 13.9% savings in bits while maintaining similar quality
Keywords :
adaptive codes; code standards; data compression; interpolation; video coding; MPEG video coding; MPEG video-compression standard; adaptive reference frame-placement scheme; algorithm; block matching algorithm; generic form; interreference-frame distances; mean square prediction error; motion analysis; motion vector interpolation; scene adaptation; scene content; scene-context-dependent reference-frame placement; temporal statistics; video contents; Bit rate; Decorrelation; Encoding; Layout; Motion analysis; Redundancy; Statistics; Transform coding; Video coding; Video compression;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
