Author :
Roelofs, H. ; Srinivasan, R. ; van Etten, W.
Abstract :
Fast simulation techniques are applied to estimate accurately the error rates of coherent M-ary phase shift keying in the presence of cochannel interference (CCI) and additive white Gaussian noise in nonfading channels. This type of interference often occurs in mobile wireless systems that employ frequency reuse. In much of the literature, error rates are calculated based on the assumption that CCI can be modelled as Gaussian. It is shown that this assumption is valid only in noise-dominated environments. When interference is dominant, the assumption yields excessively high error rates. Simulation techniques based on adaptive importance sampling (IS) are developed for this classical problem. However, they are of sufficient generality to be applicable to any form of signalling in interference situations. Several new results are presented, and these can be used to calculate the cellular capacities of wireless systems. Some of the IS results have been validated using numerically computed analytical formulas
Keywords :
AWGN channels <M-ary PSK, cochannel interf., fast simul., perform. estim.>; cellular radio <M-ary PSK, cochannel interf., fast simul., perform. estim.>; cochannel interference <M-ary PSK, cochannel interf., fast simul., perform. estim.>; error statistics <M-ary PSK, cochannel interf., fast simul., perform. estim.>; importance sampling <M-ary PSK, cochannel interf., fast simul., perform. estim.>; parameter estimation <M-ary PSK, cochannel interf., fast simul., perform. estim.>; phase shift keying <M-ary PSK, cochannel interf., fast simul., perform. estim.>; AWGN channels; CCI; M-ary PSK; adaptive importance sampling; additive white Gaussian noise; cellular capacity; cochannel interference; error rate estimation; frequency reuse; mobile wireless systems; nonfading channels; phase shift keying;
