On Precoding for Constant K-User MIMO Gaussian Interference Channel with Finite Constellation Inputs
Abstract
This paper considers linear precoding for constant channel-coefficient -User MIMO Gaussian Interference Channel (MIMO GIC) where each transmitter- (Tx-), requires to send independent complex symbols per channel use that take values from fixed finite constellations with uniform distribution, to receiver- (Rx-) for . We define the maximum rate achieved by Tx- using any linear precoder, when the interference channel-coefficients are zero, as the signal to noise ratio (SNR) tends to infinity to be the Constellation Constrained Saturation Capacity (CCSC) for Tx-. We derive a high SNR approximation for the rate achieved by Tx- when interference is treated as noise and this rate is given by the mutual information between Tx- and Rx-, denoted as . A set of necessary and sufficient conditions on the precoders under which tends to CCSC for Tx- is derived. Interestingly, the precoders designed for interference alignment (IA) satisfy these necessary and sufficient conditions. Further, we propose gradient-ascent based algorithms to optimize the sum-rate achieved by precoding with finite constellation inputs and treating interference as noise. Simulation study using the proposed algorithms for a 3-user MIMO GIC with two antennas at each node with for all , and with BPSK and QPSK inputs, show more than 0.1 bits/sec/Hz gain in the ergodic sum-rate over that yielded by precoders obtained from some known IA algorithms, at moderate SNRs.
Cite
@article{arxiv.1210.3819,
title = {On Precoding for Constant K-User MIMO Gaussian Interference Channel with Finite Constellation Inputs},
author = {Abhinav Ganesan and B. Sundar Rajan},
journal= {arXiv preprint arXiv:1210.3819},
year = {2013}
}
Comments
15 pages, 9 figures