Title :
Communication receivers based on Markov models of the fading channel
Author :
Riediger, M. ; Shwedyk, E.
Author_Institution :
Dept. of Electr. & Comput. Eng., Manitoba Univ., Winnipeg, Man., Canada
Abstract :
The problem researched is the comparison of different finite-state Markov channel (FSMC) models used to approximate the Rayleigh fading channel. The criterion used to compare the Markov models is the error performance of receivers based on the FSMC, where the sufficient statistics are obtained from the Jakes-Clarke (1974) fading channel. The FSMC receivers perform joint maximum a posteriori (MAP) sequence detection and channel estimation using the Viterbi algorithm. Receiver outputs of bit decision and channel estimation error are used as the measure of comparison between various models and a well-developed reference receiver. For this research 1st and 2nd order models were implemented. Simulation results suggest that there can be a significant improvement in receiver performance when the receiver is based on a 2nd order model over a 1st order model. Likewise, an improvement in performance is observed when the number of Markov states is increased.
Keywords :
Markov processes; Rayleigh channels; maximum likelihood detection; maximum likelihood estimation; multipath channels; radio receivers; sequential estimation; 1st order model; Jakes-Clarke fading channel; MAP sequence detection; Markov states; Rayleigh fading channel; Viterbi algorithm; additive noise; bit decision; channel estimation; channel estimation error; communication receivers; error performance; finite-state Markov channel models; joint maximum a posteriori sequence detection; maximum likelihood sequence detection; mobile communications; multipath fading channel; receiver performance; receivers; reference receiver; simulation results; sufficient statistics; AWGN; Additive noise; Channel estimation; Decoding; Fading; Mobile communication; Signal processing; Statistics; Time-varying channels; Viterbi algorithm;
Conference_Titel :
Electrical and Computer Engineering, 2002. IEEE CCECE 2002. Canadian Conference on
Print_ISBN :
0-7803-7514-9
DOI :
10.1109/CCECE.2002.1012929
