Title :
Adaptive Bayesian decision feedback equalizer for dispersive mobile radio channels
Author :
Chen, Sheng ; McLaughlin, Stephen ; Mulgrew, Bernard ; Grant, Peter M.
Author_Institution :
Dept. of Electr. Eng., Edinburgh Univ., UK
fDate :
5/1/1995 12:00:00 AM
Abstract :
The paper investigates adaptive equalization of time-dispersive mobile radio fading channels and develops a robust high performance Bayesian decision feedback equalizer (DFE). The characteristics and implementation aspects of this Bayesian DFE are analyzed, and its performance is compared with those of the conventional symbol or fractional spaced DFE and the maximum likelihood sequence estimator (MLSE). In terms of computational complexity, the adaptive Bayesian DFE is slightly more complex than the conventional DFE but is much simpler than the adaptive MLSE. In terms of error rate in symbol detection, the adaptive Bayesian DFE outperforms the conventional DFE dramatically. Moreover, for severely fading multipath channels, the adaptive MLSE exhibits significant degradation from the theoretical optimal performance and becomes inferior to the adaptive Bayesian DFE
Keywords :
Bayes methods; adaptive equalisers; computational complexity; decision feedback equalisers; error statistics; fading; land mobile radio; multipath channels; radiofrequency interference; adaptive Bayesian decision feedback equalizer; adaptive MLSE; adaptive equalization; computational complexity; degradation; dispersive mobile radio channels; error rate; fading channels; performance; severely fading multipath channels; symbol detection; Adaptive equalizers; Bayesian methods; Decision feedback equalizers; Dispersion; Fading; Land mobile radio; Maximum likelihood detection; Maximum likelihood estimation; Performance analysis; Robustness;
Journal_Title :
Communications, IEEE Transactions on
