DocumentCode
1289576
Title
A layered video object coding system using sprite and affine motion model
Author
Lee, Ming-Chieh ; Chen, Wei-ge ; Lin, Chih-Lung Bruce ; Gu, Chuang ; Markoc, Tomislav ; Zabinsky, Steven I. ; Szeliski, Richard
Author_Institution
Microsoft Corp., Redmond, WA, USA
Volume
7
Issue
1
fYear
1997
fDate
2/1/1997 12:00:00 AM
Firstpage
130
Lastpage
145
Abstract
A layered video object coding system is presented in this paper. The goal is to improve video coding efficiency by exploiting the layering of video and to support content-based functionality. These two objectives are accomplished using a sprite technique and an affine motion model on a per-object basis. Several novel algorithms have been developed for mask processing and coding, trajectory coding, sprite accretion and coding, locally affine motion compensation, error signal suppression, and image padding. Compared with conventional frame-based coding methods, better experimental results on both hybrid and natural scenes have been obtained using our coding scheme. We also demonstrate content-based functionality which can be easily achieved in our system
Keywords
code standards; coding errors; error analysis; image representation; motion compensation; motion estimation; telecommunication standards; video coding; MPEG-4 verification model; affine motion model; algorithms; code standard; content based functionality; error signal suppression; experimental results; frame based coding methods; hybrid scenes; image padding; layered video object coding system; locally affine motion compensation; mask coding; mask processing; motion estimation; natural scenes; sprite accretion; sprite coding; sprite technique; trajectory coding; video coding efficiency; video frame representation; Computer graphics; Decoding; Image coding; MPEG 4 Standard; Pixel; Scalability; Spatial resolution; Sprites (computer); Video coding; Video compression;
fLanguage
English
Journal_Title
Circuits and Systems for Video Technology, IEEE Transactions on
Publisher
ieee
ISSN
1051-8215
Type
jour
DOI
10.1109/76.554424
Filename
554424
Link To Document