DocumentCode
1939053
Title
Improving scene cut quality for real-time video decoding
Author
Motta, Giovanni ; Storer, James A. ; Carpentieri, Bruno
Author_Institution
Dept. of Comput. Sci., Brandeis Univ., Waltham, MA, USA
fYear
2000
fDate
2000
Firstpage
470
Lastpage
479
Abstract
We address the problem of improving the scene cut quality in fixed bit-rate real-time video decoding such as is used in the H.263 and MPEG standards. In low bandwidth applications, scene cuts can cause the bits required to encode a single frame to greatly exceed the target average bits per frame, and necessitate the skipping of other frames to provide sufficient time to transmit the scene cut frame. We present an optimal algorithm for minimizing the number of skipped frames and keep the decoding synchronized. Although the algorithm requires additional encoding complexity, there is no change in decoding complexity (in fact, no change to the decoder at all). Experimental results, obtained with a simplified strategy within the framework of H.263+ video encoding, confirm that the method provides an effective alternative to current frame skipping strategies. The overall quality in the presence of scene cuts is improved with respect the TMN-8 rate control. Although the overall bit rate benefits from our method, our focus is to improve the quality of the video where scene cuts occur (by reducing skipped frames and improving decoder synchronization). The approach here can be combined with more sophisticated rate controls, as, for example, the newer rate-distortion optimized TMN-10 and TMN-11
Keywords
codecs; decoding; minimisation; real-time systems; synchronisation; variable rate codes; video coding; H.263 standard; MPEG standard; TMN-8 rate control; complexity; fixed bit-rate video decoding; frame skipping; minimization; optimal algorithm; real-time video decoding; scene cut quality; synchronization; video quality; Bit rate; Computer science; Decoding; Discrete cosine transforms; Dynamic programming; Layout; MPEG standards; Optimization methods; Quantization; Video compression;
fLanguage
English
Publisher
ieee
Conference_Titel
Data Compression Conference, 2000. Proceedings. DCC 2000
Conference_Location
Snowbird, UT
ISSN
1068-0314
Print_ISBN
0-7695-0592-9
Type
conf
DOI
10.1109/DCC.2000.838187
Filename
838187
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