Title :
Maximum weight basis decoding of convolutional codes
Author :
Das, Suman ; Erkip, Elza ; Cavallaro, Joseph R. ; Aazhang, Behnaam
Author_Institution :
Dept. of Electr. & Comput. Eng., Rice Univ., Houston, TX, USA
Abstract :
We describe a new suboptimal decoding technique for linear codes based on the calculation of maximum weight basis of the code. The idea is based on estimating the maximum number locations in a codeword which have the least probability of estimation error without violating the codeword structure. In this paper we discuss the details of the algorithm for a convolutional code. The error correcting capability of the convolutional code increases with the constraint length of the code. Unfortunately the decoding complexity of Viterbi (1967) algorithm grows exponentially with the constraint length. We also augment the maximal weight basis algorithm by incorporating the ideas of list decoding technique. The complexity of the algorithm grows only quadratically with the constraint length and the performance of the algorithm is comparable to the optimal Viterbi decoding method
Keywords :
computational complexity; convolutional codes; error correction codes; error statistics; linear codes; maximum likelihood decoding; optimisation; Viterbi algorithm; code constraint length; codeword structure; convolutional codes; decoding complexity; error correcting code; estimation error probability; linear codes; list decoding; maximal weight basis algorithm; maximum likelihood decoding algorithm; maximum weight basis decoding; optimal Viterbi decoding method; suboptimal decoding; Background noise; Basis algorithms; Computational complexity; Convolutional codes; Decoding; Error correction codes; Estimation error; Linear code; Viterbi algorithm; Wireless communication;
Conference_Titel :
Global Telecommunications Conference, 2000. GLOBECOM '00. IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-6451-1
DOI :
10.1109/GLOCOM.2000.891256
