Title :
Adaptive Bayesian equalizer with decision feedback
Author :
Chen, Sheng ; Mulgrew, Bernard ; McLaughlin, Stephen
Author_Institution :
Dept. of Electr. Eng., Edinburgh Univ., UK
fDate :
9/1/1993 12:00:00 AM
Abstract :
A Bayesian solution is derived for digital communication channel equalization with decision feedback. This is an extension of the maximum a posteriori probability symbol-decision equalizer to include decision feedback. A novel scheme utilizing decision feedback that not only improves equalization performance but also reduces computational complexity greatly is proposed. It is shown that the Bayesian equalizer has a structure equivalent to that of the radial basis function network, the latter being a one-hidden-layer artificial neural network widely used in pattern classification and many other areas of signal processing. Two adaptive approaches are developed to realize the Bayesian solution. The maximum-likelihood Viterbi algorithm and the conventional decision feedback equalizer are used as two benchmarks to asses the performance of the Bayesian decision feedback equalizer
Keywords :
Bayes methods; adaptive filters; digital communication systems; equalisers; feedforward neural nets; filtering and prediction theory; signal processing; telecommunication channels; adaptive Bayesian equaliser; computational complexity; decision feedback; decision feedback equalizer; digital communication channel equalization; maximum-likelihood Viterbi algorithm; one-hidden-layer artificial neural network; radial basis function network; signal processing; Adaptive signal processing; Artificial neural networks; Bayesian methods; Computational complexity; Decision feedback equalizers; Digital communication; Neurofeedback; Pattern classification; Radial basis function networks; Signal processing algorithms;
Journal_Title :
Signal Processing, IEEE Transactions on
