Optimizing large-scale MIMO cellular downlink: Multiplexing, diversity, or interference nulling?

Kianoush Hosseini, Wei Yu, R. Adve
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引用次数: 6

Abstract

A base-station (BS) equipped with multiple antennas can use its spatial dimensions in three ways: (1) serve multiple users to achieve a multiplexing gain, (2) provide diversity to its users, and/or (3) null interference at a chosen subset of out-of-cell users. The main contribution of this paper is to answer the following question: what is the optimal balance between the three competing benefits of multiplexing, diversity and interference nulling? We answer this question in the context of the downlink of a cellular network in which each user chooses its best serving BS, and requests nearby interfering BSs for interference nulling. BSs are equipped with a large number of antennas, serve multiple single-antenna users using zero-forcing beamforming and equal power assignment, and null interference at a subset of out-of-cell users. The remaining spatial dimensions provide transmit diversity. We assume perfect channel state information at the BSs and users. Utilizing tools from stochastic geometry, we show that, surprisingly, to maximize the per-BS ergodic sum rate, at the optimal allocation of spatial resources, interference nulling does not bring tangible benefit. A close-to-optimal strategy is to use none of the spatial resources for interference nulling, while reserving 60% of spatial resources for achieving multiplexing and the rest for providing diversity.
优化大规模MIMO蜂窝下行链路:多路复用,多样性,或干扰消除?
配备多天线的基站(BS)可以以三种方式利用其空间维度:(1)为多个用户提供服务以获得多路复用增益,(2)为其用户提供分集,和/或(3)在选定的小区外用户子集上消除干扰。本文的主要贡献是回答以下问题:多路复用、分集和干扰消除这三个相互竞争的好处之间的最佳平衡是什么?我们在蜂窝网络下行链路的背景下回答了这个问题,其中每个用户选择其最好的服务基站,并请求附近的干扰基站进行干扰消除。BSs配备了大量天线,使用零强迫波束形成和等功率分配为多个单天线用户服务,并且在小区外用户的子集中实现零干扰。剩余的空间维度提供发射分集。我们假设在BSs和用户处有完美的信道状态信息。利用随机几何的工具,我们惊奇地发现,为了最大化每bs遍历和率,在空间资源的最优配置下,干扰零化并没有带来切实的好处。一种接近最优的策略是不使用任何空间资源进行干扰消除,而保留60%的空间资源用于实现多路复用,其余用于提供分集。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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