Decentralizing Multicell Beamforming via Deterministic Equivalents
Abstract
This paper focuses on developing a decentralized framework for coordinated minimum power beamforming wherein base stations (BSs), each equipped with antennas, serve single-antenna users with specific rate constraints. This is realized by considering user specific intercell interference (ICI) strength as the principal coupling parameter among BSs. First, explicit deterministic expressions for transmit powers are derived for spatially correlated channels in the asymptotic regime in which and grow large with a non-trivial ratio . These asymptotic expressions are then used to compute approximations of the optimal ICI values that depend only on the channel statistics. By relying on the approximate ICI values as coordination parameters, a distributed non-iterative coordination algorithm, suitable for large networks with limited backhaul, is proposed. A heuristic algorithm is also proposed relaxing coordination requirements even further as it only needs pathloss values for non-local channels. The proposed algorithms satisfy the target rates for all users even when and are relatively small. Finally, the potential benefits of grouping users with similar statistics are investigated to further reduce the overhead and computational effort of the proposed solutions. Simulation results show that the proposed methods yield near-optimal performance.
Cite
@article{arxiv.1811.10371,
title = {Decentralizing Multicell Beamforming via Deterministic Equivalents},
author = {Hossein Asgharimoghaddam and Antti Tölli and Luca Sanguinetti and Merouane Debbah},
journal= {arXiv preprint arXiv:1811.10371},
year = {2018}
}
Comments
IEEE Transactions on Communications