Nonminimum phase channel equalization using noncausal filters

The Viterbi algorithm is the optimum method for detection of a data sequence in the presence of intersymbol interference and additive white Gaussian noise, Since its computational complexity is very large, several simplifications and alternative methods have been proposed, most of which are more effective when dealing with minimum phase channels. In this paper we present a novel technique for the equalization of nonminimum phase channels that employs noncausal all-pass filters operating in reversed time, The impulse response of the equalized channel approximates a minimum phase sequence with higher energy concentration at its left-hand end than at the right-hand end, The method can be modified to obtain a desired impulse response with few nonzero samples with only minor variations in noise level, providing significant complexity reduction in the Viterbi algorithm for detection, In addition, a twopass decoding strategy is developed, leading to significant improvement in performance with little increase in computational cost, Simulation results are included to verify the advantages of the proposed techniques.