Closed-Form Word Error Rate Analysis for Successive Interference Cancellation Decoders

Abstract

We consider the estimation of an integer vector ∈ Zn from the linear observation =+, where ∈Rm× n is a random matrix with independent and identically distributed (i.i.d.) standard Gaussian N(0,1) entries, and ∈ Rm is a noise vector with i.i.d. N(0,σ2 ) entries with given σ. In digital communications, is typically uniformly distributed over an n-dimensional box B. For this estimation problem, successive interference cancellation (SIC) decoders are popular due to their low complexity, and a detailed analysis of their word error rates (WERs) is highly useful. In this paper, we derive closed-form WER expressions for two cases: (1) ∈ Zn is fixed and (2) is uniformly distributed over B. We also investigate some of their properties in detail and show that they agree closely with simulated word error probabilities.