Computationally Efficient Robust Beamforming for SINR Balancing in Multicell Downlink
Abstract
We address the problem of downlink beamformer design for signal-to-interference-plus-noise ratio (SINR) balancing in a multiuser multicell environment with imperfectly estimated channels at base stations (BSs). We first present a semidefinite program (SDP) based approximate solution to the problem. Then, as our main contribution, by exploiting some properties of the robust counterpart of the optimization problem, we arrive at a second-order cone program (SOCP) based approximation of the balancing problem. The advantages of the proposed SOCP-based design are twofold. First, it greatly reduces the computational complexity compared to the SDP-based method. Second, it applies to a wide range of uncertainty models. As a case study, we investigate the performance of proposed formulations when the base station is equipped with a massive antenna array. Numerical experiments are carried out to confirm that the proposed robust designs achieve favorable results in scenarios of practical interest.
Cite
@article{arxiv.1304.3998,
title = {Computationally Efficient Robust Beamforming for SINR Balancing in Multicell Downlink},
author = {Muhammad Fainan Hanif and Le-Nam Tran and Antti Tölli and Markku Juntti},
journal= {arXiv preprint arXiv:1304.3998},
year = {2014}
}
Comments
26 pages, 5 figures. Submitted for possible publication