DocumentCode
1341818
Title
MPEG-2 error concealment based on block-matching principles
Author
Tsekeridou, Sofia ; Pitas, Ioannis
Author_Institution
Dept. of Inf., Aristotelian Univ. of Thessaloniki, Greece
Volume
10
Issue
4
fYear
2000
fDate
6/1/2000 12:00:00 AM
Firstpage
646
Lastpage
658
Abstract
The MPEG-2 compression algorithm is very sensitive to channel disturbances due to the use of variable-length coding. A single bit error during transmission leads to noticeable degradation of the decoded sequence quality, in that part or an entire slice information is lost until the next resynchronization point is reached. Error concealment (EC) methods, implemented at the decoder side, present one way of dealing with this problem. An error-concealment scheme that is based on block-matching principles and spatio-temporal video redundancy is presented in this paper. Spatial information (for the first frame of the sequence or the next scene) or temporal information (for the other frames) is used to reconstruct the corrupted regions. The concealment strategy is embedded in the MPEG-2 decoder model in such a way that error concealment is applied after entire frame decoding. Its performance proves to be satisfactory for packet error rates (PER) ranging from 1% to 10% and for video sequences with different content and motion and surpasses that of other EC methods under study
Keywords
data compression; error statistics; image sequences; redundancy; variable length codes; video coding; MPEG-2 decoder; MPEG-2 error concealment; bit error; block-matching principles; channel disturbances; compression algorithm; concealment strategy; decoded sequence quality; packet error rates; resynchronization point; slice information; spatial information; spatio-temporal video redundancy; temporal information; variable-length coding; video sequences; Asynchronous transfer mode; Decoding; Degradation; Digital TV; Digital video broadcasting; Error correction; HDTV; Satellite broadcasting; Transform coding; Video compression;
fLanguage
English
Journal_Title
Circuits and Systems for Video Technology, IEEE Transactions on
Publisher
ieee
ISSN
1051-8215
Type
jour
DOI
10.1109/76.845010
Filename
845010
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