Title :
Extended MLSE receiver for the frequency-flat, fast fading channel and linear modulations
Author :
Hart, Brian ; Taylor, D.P.
Author_Institution :
Dept. of Electr. & Electron. Eng., Canterbury Univ., Christchurch, New Zealand
Abstract :
This paper develops an MLSE receiver for the frequency-flat, fast fading channel corrupted by additive Gaussian noise, when linear modulations (M-ASK, M-PSK, M-QAM) are employed. The paper extends Ungerboeck´s derivation of the extended MLSE receiver for the purely frequency-selective channel to the time-selective channel. Although the new receiver´s structure and metric assume ideal channel state information (CSI), the receiver can be used wherever high-quality CSI is available. The receiver is maximum likelihood for a variety of channels, including Rician, Rayleigh, log-normal and AWGN channels. Bounds on the receiver´s BER are deduced for ideal CSI and fast Rayleigh fading. The paper offers insight into matched filtering and receiver processing for the fast fading channel. The new receiver can seamlessly tolerate square-root Nyquist pulses without a fading-induced ISI error floor
Keywords :
Gaussian channels; Gaussian noise; Rayleigh channels; Rician channels; amplitude shift keying; estimation theory; fading; intersymbol interference; land mobile radio; matched filters; maximum likelihood estimation; phase shift keying; quadrature amplitude modulation; radio receivers; radiofrequency interference; thermal noise; white noise; AWGN channels; BER; M-ASK; M-PSK; M-QAM; Rayleigh channels; Rician channels; additive Gaussian noise; channel state information; extended MLSE receiver; fading-induced ISI error floor; fast Rayleigh fading; frequency-flat fast fading channel; frequency-selective channel; linear modulations; log-normal channels; matched filtering; receiver processing; square-root Nyquist pulses; time-selective channel; Amplitude shift keying; Fading channels; Gaussian channels; Gaussian noise; Intersymbol interference; Land mobile radio interference; Matched filters; Maximum likelihood estimation; Phase shift keying; Quadrature amplitude modulation; Radio receivers; Rayleigh channels; Rician channels; Sequential estimation; White noise;
Conference_Titel :
Global Telecommunications Conference, 1995. Conference record. Communication Theory Mini-Conference, GLOBECOM '95., IEEE
Print_ISBN :
0-7803-2509-5
DOI :
10.1109/CTMC.1995.502951
