Optimal selection of encoding configuration for scalable video coding. Abanoz, T. B. & Tekalp, A. M. In 2007 IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING, VOLS 1-7, of IEEE International Conference on Image Processing ICIP, pages 869-872, 2007. IEEE. IEEE International Conference on Image Processing (ICIP 2007), San Antonio, TX, SEP 16-19, 2007
abstract   bibtex   
It is well-known that the wider the range of extraction points a scalable bitstrearn supports, the lower the compression efficiency at these extraction points. Moreover, this compression efficiency generally varies according to what combination of scalability types are used to support this range of extraction points as specified by the encoding configuration. Hence, we propose some objective criteria as a measure of coverage, compression efficiency and rate-distortion performance of a configuration, and then present a multiple-objective optimization formulation to select the best encoding configuration for scalable video coding, given a range of bitstreams that must be supported. The method is demonstrated by experimental results.
@inproceedings{ ISI:000253487200218,
Author = {Abanoz, T. Berkin and Tekalp, A. Murat},
Book-Group-Author = {{IEEE}},
Title = {{Optimal selection of encoding configuration for scalable video coding}},
Booktitle = {{2007 IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING, VOLS 1-7}},
Series = {{IEEE International Conference on Image Processing ICIP}},
Year = {{2007}},
Pages = {{869-872}},
Note = {{IEEE International Conference on Image Processing (ICIP 2007), San
   Antonio, TX, SEP 16-19, 2007}},
Organization = {{IEEE}},
Abstract = {{It is well-known that the wider the range of extraction points a
   scalable bitstrearn supports, the lower the compression efficiency at
   these extraction points. Moreover, this compression efficiency generally
   varies according to what combination of scalability types are used to
   support this range of extraction points as specified by the encoding
   configuration. Hence, we propose some objective criteria as a measure of
   coverage, compression efficiency and rate-distortion performance of a
   configuration, and then present a multiple-objective optimization
   formulation to select the best encoding configuration for scalable video
   coding, given a range of bitstreams that must be supported. The method
   is demonstrated by experimental results.}},
ISSN = {{1522-4880}},
ISBN = {{978-1-4244-1436-9}},
Unique-ID = {{ISI:000253487200218}},
}

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