Title :
Symbol error probability analysis of a multiuser detector for M-PSK signals based on successive cancellation
Author :
Janssen, Gerard J M ; Ben Slimane, Slimane
Author_Institution :
Dept. of Inf. Syst., Delft Univ. of Technol., Netherlands
fDate :
2/1/2002 12:00:00 AM
Abstract :
A narrow-band multiuser receiver based on successive signal detection and subtraction, is considered. The symbol error probability (SEP) for M-PSK modulated signals is evaluated and analytical approximations for the SEP of the individual signals are presented and compared with results obtained from simulations. For geometrically related signal amplitudes, a constant minimum distance can be guaranteed independent of the number of signals. The required amplitude ratio is shown to be related to M and the number of co-channel signals. Optimizing the transmitted power for the different signals while ensuring the same SEP is then addressed and closed-form expressions of the signal amplitude ratios are derived. The effect of inaccurately estimated signal parameters due to noise is also analyzed. SEP results are presented for synchronous signals in an additive white Gaussian noise environment
Keywords :
AWGN channels; approximation theory; cellular radio; cochannel interference; error statistics; interference suppression; multiuser channels; phase shift keying; radio receivers; signal detection; AWGN; GSM; M-PSK signals; additive white Gaussian noise; amplitude ratio; analytical approximations; closed-form expressions; co-channel signals; constant minimum distance; geometrically related signal amplitudes; multiuser detector; narrow-band multiuser receiver; signal amplitude ratios; signal parameters estimation; successive cancellation; successive signal detection; successive signal subtraction; symbol error probability analysis; synchronous signals; transmitted power optimisation; Analytical models; Closed-form solution; Detectors; Error analysis; Error probability; Narrowband; Parameter estimation; Signal analysis; Signal detection; Working environment noise;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
