Author_Institution :
TRW Syst. Inf. & Technol. Group, Sunnyvale, CA, USA
Abstract :
A closed-form expression for the average signal-to-noise-ratio (SNR) of generalized diversity selection combining, using the m largest (in instantaneous SNR) diversity signals, for arbitrary m, assuming that the Rayleigh fading statistics on each diversity branch are identically, independently distributed (i.i.d.), already exists in the literature. In this paper, a similar closed-form expression, but for nonidentically distributed statistics, is derived, This expression specializes to known results, such as the average SNRs of maximal-ratio combining with either i.i.d. or non-i.i.d. diversity statistics and that of conventional selection combining (CSC) with i.i.d. diversity statistics. In addition, it provides, for the first time, a simple closed-form solution to the combined SNR of CSC with non-i.i.d. diversity statistics. Further, the closed-form solution for the SNR of selecting the m, largest diversity signals has negligible computational complexity
Keywords :
Rayleigh channels; code division multiple access; diversity reception; land mobile radio; multiuser channels; noise; statistical analysis; RAKE receiver; SNR; average signal-to-noise-ratio; closed-form expression; closed-form solution; code-division multiple-access; computational complexity; conventional selection combining; diversity signals; generalized diversity selection combining; i.i.d. diversity statistics; maximal-ratio combining; mobile communication systems; noni.i.d. diversity statistics; nonidentical Rayleigh fading statistics; nonidentically distributed statistics; Closed-form solution; Coherence; Diversity reception; Fading; Frequency diversity; Rayleigh channels; Signal to noise ratio; Statistical distributions; Statistics; Transmitting antennas;
