Title :
On the Equivalence Between Maximum Likelihood and Minimum Distance Decoding for Binary Contagion and Queue-Based Channels With Memory
Author :
Azar, Ghady ; Alajaji, Fady
Author_Institution :
Dept. of Math. & Stat., Queen´s Univ., Kingston, ON, Canada
Abstract :
We study the optimal maximum likelihood (ML) block decoding of general binary codes sent over two classes of binary additive noise channels with memory. Specifically, we consider the infinite and finite memory Polya contagion and queue-based channel models, which were recently shown to approximate well binary modulated correlated fading channels used with hard-decision demodulation. We establish conditions on the codes and channels parameters under which ML and minimum Hamming distance decoding are equivalent. We also present results on the optimality of classical perfect and quasi-perfect codes when used over the channels under ML decoding. Finally, we briefly apply these results to the dual problem of syndrome source coding with and without side information.
Keywords :
AWGN channels; Hamming codes; approximation theory; block codes; channel coding; correlation methods; fading channels; maximum likelihood decoding; modulation coding; queueing theory; source coding; ML decoding; binary additive noise channels; binary contagion; binary modulated correlated fading channels; classical perfect codes; classical quasi-perfect codes; dual problem; finite memory Polya contagion; general binary codes; hard-decision demodulation; infinite memory Polya contagion; minimum Hamming distance decoding; optimal maximum likelihood block decoding; queue-based channel models; syndrome source coding; Additive noise; Channel models; Correlation; Markov processes; Maximum likelihood decoding; Binary channels with finite and infinite memory; ML and minimum distance decoding; Markov noise; block codes; source-channel coding duality; syndrome source coding;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2014.2378257
