Title :
An MLSE receiver using channel classification for Rayleigh fading channels
Author :
Sung, Wonjin ; Kim, In-Kyung
Author_Institution :
Hughes Network Syst. Inc., Germantown, MD, USA
Abstract :
We propose a channel classification method that identifies the delay path profile of Rayleigh fading channels, which can be used in conjunction with conventional maximum-likelihood sequence estimation (MLSE) receivers. The proposed method determines the appropriate number of delay taps for the MLSE trellis, based on a decision variable obtained from multiple traffic bursts. By formulating the decision variable using the F-distribution, we derive exact expressions for misclassification probability. A new MLSE receiver structure that utilizes the channel classification method is described, and bit error rate (BER) simulation results are presented to demonstrate the performance improvement. The particular application which is discussed is the IS-136 TDMA standard.
Keywords :
Rayleigh channels; cellular radio; demodulation; error statistics; maximum likelihood sequence estimation; multiuser channels; radio receivers; signal classification; telecommunication standards; telecommunication traffic; time division multiple access; BER simulation results; F-distribution; IS-136 TDMA standard; MLSE receiver; MLSE receivers; MLSE trellis; Rayleigh fading channels; bit error rate; cellular radio; channel classification; decision variable; delay path profile; delay taps; demodulation; maximum-likelihood sequence estimation; misclassification probability; multiple traffic bursts; performance improvement; Bit error rate; Delay estimation; Demodulation; Dispersion; Fading; Intersymbol interference; Least squares approximation; Maximum likelihood estimation; Time division multiple access; Traffic control;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
