Title :
Fast computation of a discrete-time whitened matched filter based on Kalman filtering
Author :
Badri-Hoeher, Sabah ; Hoeher, Peter Adam
Abstract :
In this paper, fast techniques for computing the coefficients of a Kalman-based prefilter originally developed by Mulgrew are proposed. This prefilter approximates a minimum-phase overall impulse response. In conjunction with a reduced-complexity equalizer, near optimum performance compared to maximum-likelihood sequence estimation is demonstrated for wireless channels. We suggest an exact recursive solution as well as a new iterative solution. In both solutions, the computational complexity of calculating the prefilter coefficients is O(LWMF) with respect to LWMF, where LWMF is the number of prefilter coefficients. For comparison, the complexity of the original algorithm is O(LWMF3).
Keywords :
FIR filters; adaptive Kalman filters; computational complexity; discrete time filters; equalisers; filtering theory; iterative methods; matched filters; telecommunication channels; transient response; FIR filter; adaptive Kalman filtering; computational complexity; discrete-time whitened matched filter; fast computation technique; impulse response; iterative method; maximum-likelihood sequence estimation; reduced-complexity equalizer; spectral factorization; transversal filter; wireless channel; Computational complexity; Equalizers; Filtering; Intersymbol interference; Iterative algorithms; Kalman filters; Matched filters; Maximum likelihood estimation; Riccati equations; Signal processing algorithms;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2004.833442
