BANDWIDTH EFFICIENT QPSK IN COCHANNEL INTERFERENCE AND FADING

The performances of QPSK in the presence of cochannel interference in both nonfading and fading environments are analyzed, Three approaches for representing the cochannel interference are investigated, These are a precise error probability method, a sum of sinusoids (sinusoidal) model, and a Gaussian interference model, In addition to determining precise results for the performance of QPSK in cochannel interference, it is our aim in this paper to examine the validity of these two interference models in both additive white Gaussian noise (AWGN) environments and in different flat fading environments; Rayleigh, Ricean, and Nakagami, In some previous work the effects of intersymbol interference (ISI) produced by the cochannel interference were neglected, as were also the symbol timing offsets of the different signals, In this paper, Nyquist pulse shaping is considered and the effects of cross channel ISI produced by the cochannel interference are accounted for in the precise interference model, Also accounted for are the random symbol and carrier timing offsets of the interfering signals, Two performance criteria are considered, These are the average bit error rate and the interference penalty, The latter is defined as the increase in signal-to-noise power ratio (SNR) required by a system with cochannel interference in order to maintain the same BER as a system without interference, Attention will be given, in particular, to the outdoor microcellular fading environment. In this environment, the fading experienced by the interfering signals may be represented by a Rayleigh-fading model while the fading experienced by the desired signal may be represented by a Ricean or a Nakagami-fading model.