Study of Block Diagonalization Precoding and Power Allocation for Multiple-Antenna Systems with Coarsely Quantized Signals
Abstract
In this work, we present block diagonalization and power allocation algorithms for large-scale multiple-antenna systems with coarsely quantized signals. In particular, we develop Coarse Quantization-Aware Block Diagonalization and Coarse Quantization-Aware Regularized Block Diagonalization precoding algorithms that employ the Bussgang decomposition and can mitigate the effects of low-resolution signals and interference. Moreover, we also devise the Coarse Quantization-Aware Most Advantageous Allocation Strategy power allocation algorithm to improve the sum rate of precoders that operate with low-resolution signals. An analysis of the sum-rate performance is carried out along with computational complexity and power consumption studies of the proposed and existing techniques. Simulation results illustrate the performance of the proposed and precoding algorithms, and the proposed power allocation strategy against existing approaches.
Cite
@article{arxiv.2107.03969,
title = {Study of Block Diagonalization Precoding and Power Allocation for Multiple-Antenna Systems with Coarsely Quantized Signals},
author = {S. Pinto and R. de Lamare},
journal= {arXiv preprint arXiv:2107.03969},
year = {2021}
}
Comments
9 figures, 33 pages