DocumentCode
919207
Title
Random coding theorem for broadcast channels with degraded components
Author
Bergmans, Patrick P.
Volume
19
Issue
2
fYear
1973
fDate
3/1/1973 12:00:00 AM
Firstpage
197
Lastpage
207
Abstract
This paper generalizes Cover\´s results on broadcast channels with two binary symmetric channels (BSC) to the class of degraded channels with 
components. A random code, and its associated decoding scheme, is shown to have expected probability of error going to zero for all components simultaneously as the codeword length goes to infinity, if the point representing the rates to the various receivers falls in the set of achievable rates described by this paper. A procedure to expurgate a good random broadcast code is given, leading to a bound on the maximum probability of error. Binary symmetric broadcast channels always fall in the class of degraded broadcast channels. The results of the paper are applied to this class of channels of potential practical importance.
components. A random code, and its associated decoding scheme, is shown to have expected probability of error going to zero for all components simultaneously as the codeword length goes to infinity, if the point representing the rates to the various receivers falls in the set of achievable rates described by this paper. A procedure to expurgate a good random broadcast code is given, leading to a bound on the maximum probability of error. Binary symmetric broadcast channels always fall in the class of degraded broadcast channels. The results of the paper are applied to this class of channels of potential practical importance.Keywords
Broadcast channels; Coding; Memoryless channels; Broadcasting; Codes; Decoding; Degradation; H infinity control; Mutual information; Random variables; Sufficient conditions; Upper bound;
fLanguage
English
Journal_Title
Information Theory, IEEE Transactions on
Publisher
ieee
ISSN
0018-9448
Type
jour
DOI
10.1109/TIT.1973.1054980
Filename
1054980
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