Modeling and Analysis of Spatial Distributions of Users in Massive MIMO Systems

2021 IEEE International Conference on Microwaves, Antennas, Communications and Electronic Systems (COMCAS) Pub Date : 2021-11-01 DOI:10.1109/comcas52219.2021.9629042

Dajiang Li, Naren Anand, J. Ilow

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引用次数: 1

Abstract

This paper investigates the impact of changes in the spatial distribution of users on the energy efficiency (EE) of massive multiple-input multiple-output (MMIMO) systems. Specifically, expressions for average transmit power are developed in Poisson Point Process (PPP) of users with power control cancelling the effects of deterministic signal attenuation with distance. The user positions given by their coordinates in 2D are modeled through different bivariate random variables (RVs) which in turn result in different univariate RVs representing users equipment (UE) distances from the base station (BS). Assuming perfect power control in the system and interpreting the average transmit power as fractional moments of a distance between the UE and the BS, the average power is evaluated for Gaussian and homogenous distributions of users in 2D. Analytical results are presented to demonstrate the impact on EE due to changes in the spatial distribution of users and the path loss exponent.

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大规模MIMO系统中用户空间分布的建模与分析

本文研究了用户空间分布变化对大规模多输入多输出系统能源效率的影响。具体来说，在用户泊松点过程(PPP)中建立了平均发射功率的表达式，功率控制消除了确定性信号随距离衰减的影响。通过不同的二元随机变量(RVs)对用户的二维坐标给出的位置进行建模，从而得到不同的一元随机变量(RVs)，表示用户与基站之间的设备距离(UE)。假设系统中有完美的功率控制，并将平均发射功率解释为UE和BS之间距离的分数阶矩，在二维中对用户的高斯分布和均匀分布进行平均功率评估。分析结果表明，用户空间分布和路径损耗指数的变化对电子效率的影响。

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2021 IEEE International Conference on Microwaves, Antennas, Communications and Electronic Systems (COMCAS)

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