DocumentCode
773395
Title
A Low Complexity Stack Decoder for a Class of Binary Rate (n-1)/n Convolutional Codes
Author
Vinck, A.J.
Author_Institution
Eindhoven Univ. of Tech.,The Netherlands
Volume
32
Issue
4
fYear
1984
fDate
4/1/1984 12:00:00 AM
Firstpage
476
Lastpage
479
Abstract
In this paper we discuss the implementation of a modified stack decoder for a class of binary rate 
convolutional codes used on a binary symmetric channel (BSC). For large values of 
, the classical implementation of the stack decoder quickly becomes impractical, as each extension of an information sequence estimate gives rise to 
successor estimates. A Fano type of sequential decoder is then preferable. However, by using the structure of a class of systematic rate 
codes, with optimum distance profile (ODP), we are able to modify the classical stack decoder such that it is of comparable complexity. The average number Of stack reorganizations, as well as the average number of successors per extension, can be reduced considerably, without increase of decoding error probability.
convolutional codes used on a binary symmetric channel (BSC). For large values of , the classical implementation of the stack decoder quickly becomes impractical, as each extension of an information sequence estimate gives rise to successor estimates. A Fano type of sequential decoder is then preferable. However, by using the structure of a class of systematic rate codes, with optimum distance profile (ODP), we are able to modify the classical stack decoder such that it is of comparable complexity. The average number Of stack reorganizations, as well as the average number of successors per extension, can be reduced considerably, without increase of decoding error probability.Keywords
Convolutional coding; Binary phase shift keying; Convolutional codes; Decoding; Equations; Error analysis; Error correction codes; Error probability; Performance analysis; Reed-Solomon codes; Welding;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOM.1984.1096076
Filename
1096076
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