The Effect of Macrodiversity on the Performance of Maximal Ratio Combining in Flat Rayleigh Fading

TL;DR

This paper analyzes how macrodiversity influences the performance of maximal ratio combining in Rayleigh fading channels with co-channel interference, providing new analytical results and insights into power profiles' effects on symbol error rates.

Contribution

It presents the first analytical study of macrodiversity's impact on MRC performance in Rayleigh channels with interference, deriving exact and approximate SER expressions.

Findings

Macrodiversity power profiles significantly affect SER performance.

Derived analytical SER expressions for M-QAM and BPSK modulations.

Numerical results confirm the analysis and offer performance insights.

Abstract

The performance of maximal ratio combining (MRC) in Rayleigh channels with co-channel interference (CCI) is well-known for receive arrays which are co-located. Recent work in network MIMO, edge-excited cells and base station collaboration is increasing interest in macrodiversity systems. Hence, in this paper we consider the effect of macrodiversity on MRC performance in Rayleigh fading channels with CCI. We consider the uncoded symbol error rate (SER) as our performance measure of interest and investigate how different macrodiversity power profiles affect SER performance. This is the first analytical work in this area. We derive approximate and exact symbol error rate results for M-QAM/BPSK modulations and use the analysis to provide a simple power metric. Numerical results, verified by simulations, are used in conjunction with the analysis to gain insight into the effects of the link powers on performance.