Lu Liu, Rang Liu, Ly V. Nguyen, A. Lee Swindlehurst
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Symbol Level Precoding for Systems with Improper Gaussian Interference
This paper focuses on precoding design in multi-antenna systems with improper
Gaussian interference (IGI), characterized by correlated real and imaginary
parts. We first study block level precoding (BLP) and symbol level precoding
(SLP) assuming the receivers apply a pre-whitening filter to decorrelate and
normalize the IGI. We then shift to the scenario where the base station (BS)
incorporates the IGI statistics in the SLP design, which allows the receivers
to employ a standard detection algorithm without pre-whitenting. Finally we
address the case where the channel and statistics of the IGI are unknown, and
we formulate robust BLP and SLP designs that minimize the worst case
performance in such settings. Interestingly, we show that for BLP, the
worst-case IGI is in fact proper, while for SLP the worst case occurs when the
interference signal is maximally improper, with fully correlated real and
imaginary parts. Numerical results reveal the superior performance of SLP in
terms of symbol error rate (SER) and energy efficiency (EE), especially for the
case where there is uncertainty in the non-circularity of the jammer.