Distributed energy-efficient UL power control in massive MIMO with hardware impairments and imperfect CSI

2015 International Symposium on Wireless Communication Systems (ISWCS) Pub Date : 2015-08-01 DOI:10.1109/ISWCS.2015.7454353

A. Zappone, L. Sanguinetti, G. Bacci, Eduard Axel Jorswieck, M. Debbah

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引用次数: 7

Abstract

This work proposes a distributed power allocation scheme to maximize energy efficiency in the uplink of multi-cell massive MIMO systems with hardware impairments at the user equipments (UEs) and imperfect channel state information at the base stations (BSs). Each UE in the network is modeled as a rational agent that engages in a generalized non-cooperative game and allocates its available transmit power to maximize its individual utility (defined as the UE's throughput per Watt of transmit power) subject to target rates and power constraints. The existence and uniqueness of the generalized Nash equilibrium of the game are studied in the asymptotic regime where the number of BS antennas and UEs grow large with a non trivial ratio. A fully distributed algorithm based on best-response dynamics and relying on large-scale fading components is proposed. Sufficient conditions to guarantee convergence to the equilibrium point are given. Numerical results are used to evaluate the performance of the proposed solution and to validate the analysis in a system of finite size.

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具有硬件缺陷和不完善CSI的大规模MIMO分布式节能UL功率控制

本文提出了一种分布式功率分配方案，以最大限度地提高多小区大规模MIMO系统在用户设备(ue)硬件缺陷和基站(BSs)信道状态信息不完善情况下上行链路的能量效率。网络中的每个终端都被建模为一个理性的代理，它参与了一个广义的非合作博弈，并在目标速率和功率约束下分配其可用的发射功率以最大化其个人效用(定义为终端每瓦特发射功率的吞吐量)。在渐近状态下，研究了该对策的广义纳什均衡的存在唯一性，其中BS天线和ue的数量以非平凡的比例增长。提出了一种基于最优响应动力学、依赖大规模衰落分量的全分布式算法。给出了保证收敛到平衡点的充分条件。数值结果用于评估所提出的解决方案的性能，并验证了在有限尺寸系统中的分析。

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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2015 International Symposium on Wireless Communication Systems (ISWCS)

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