Title :
Saliency guided adaptive residue pre-processing for perceptually based video compression
Author :
Shaw, Mark Q. ; Allebach, Jan P. ; Delp, Edward J.
Author_Institution :
LaserJet Enterprise Syst., Hewlett Packard Co., Boise, ID, USA
Abstract :
In this paper we investigate a method for selectively modifying a video stream using a contrast sensitivity model based on the human visual system. This paper builds upon earlier work (Shaw, et.al., 2012) by expanding the algorithm to the Chroma channels and incorporating a saliency model to dynamically select between the different perceptual quantization levels. Our new algorithm selectively chooses the perceptual compression level based on the visual importance of the region as determined by the saliency model. The method has been implemented in the H.264 JM 18 reference encoder, and has been shown to achieve an average of 37% improvement in data compression over the baseline method without perceptible degradation of the video quality.
Keywords :
data compression; quantisation (signal); video coding; video streaming; Chroma channels; H.264 JM 18 reference encoder; contrast sensitivity model; data compression; human visual system; perceptual compression level; perceptual quantization levels; perceptually based video compression; saliency guided adaptive residue preprocessing; video quality; video stream; Heuristic algorithms; Image color analysis; Observers; Streaming media; Video coding; Video sequences; Visualization; Compression; Residue Preprocessing; Saliency; Video;
Conference_Titel :
Signal and Information Processing (GlobalSIP), 2014 IEEE Global Conference on
Conference_Location :
Atlanta, GA
DOI :
10.1109/GlobalSIP.2014.7032270
