Title :
Novel Reduced-State BCJR Algorithms
Author :
Vithanage, Cheran M. ; Andrieu, Christophe ; Piechocki, Robert J.
Author_Institution :
Univ. of Bristol, Bristol
fDate :
6/1/2007 12:00:00 AM
Abstract :
BCJR algorithm is an exact and efficient algorithm to compute the marginal posterior distributions of state variables and pairs of consecutive state variables of a trellis structure. Due to its overwhelming complexity, reduced complexity variations, such as the M-BCJR algorithm, have been developed. In this paper, we propose improvements upon the conventional M-BCJR algorithm based on modified active state selection criteria. We propose selecting the active states based on estimates of the fixed-lag smoothed distributions of the state variables. We also present Gaussian approximation techniques for the low-complexity estimation of these fixed-lag smoothed distributions. The improved performance over the M-BCJR algorithm is shown via computer simulations.
Keywords :
Gaussian channels; Gaussian distribution; MIMO communication; channel coding; channel estimation; decoding; equalisers; fading channels; signal detection; trellis codes; Bahl-Cocke-Jelinek-Raviv algorithm; Gaussian approximation techniques; M-BCJR algorithm; MIMO systems; computer simulation; consecutive state variables; digital communication; fading channels; fixed-lag smoothed distributions; marginal posterior distribution computation; modified active state selection criteria; multiple-input multiple-output systems; reduced-state BCJR algorithms; signal detection; trellis decoding algorithms; Computer simulation; Decoding; Digital communication; Distributed computing; Fading; Gaussian approximation; Hidden Markov models; Iterative algorithms; MIMO; State estimation; Decoding; digital communication; fading channels; multiple-input multiple-output (MIMO) systems; nonlinear detection; signal detection; state space methods;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2007.898830
