First Commercial Hybrid Massive MIMO System for Sub-6Hz Bands

2018 IEEE 5G World Forum (5GWF) Pub Date : 2018-07-01 DOI:10.1109/5GWF.2018.8516971

R. Vaghefi, G. Miranda, Rakesh Srirambhatla, Giovanni Marzin, Chris T. K. Ng, Farid Fayazbakhsh, S. Tarigopula, R. Palat, M. Banu

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引用次数: 6

Abstract

Massive multiple-input and multiple-output (MIMO) has been the subject of interest in both industry and academia for the past few years. Massive MIMO refers to the use of a large number of antennas typically at the base station (BS) to serve multiple user equipment (UE) simultaneously to deliver reliable and high data throughput. Two basic architectures have been considered in the literature. First is a full digital massive MIMO where all the beamforming and precoding is performed digitally in baseband and a radio frequency (RF) chain is required for every antenna element. In the second architecture referred to as hybrid massive MIMO, beamforming and precoding are done in two stages, digital precoding over fewer digital ports followed by analog beamforming across large number of antenna elements. In this paper, we provide a comparison of implementation challenges for each approach. We introduce the High Definition Active Antenna System (HDAAS), a novel scalable architecture to implement a hybrid Massive MIMO system. This design philosophy is used to build BeamCraft500, which we believe is a first commercial hybrid 3D beamforming system operating at 2 GHz. We also present results from one of the field trials in a live LTE network that validate the stability and performance of the system under real world conditions.

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首个商用混合大规模MIMO系统，用于6hz以下频段

在过去的几年里，大规模多输入多输出(MIMO)一直是工业界和学术界感兴趣的主题。大规模MIMO是指通常在基站(BS)上使用大量天线同时为多个用户设备(UE)服务，以提供可靠和高数据吞吐量。文献中考虑了两种基本架构。首先是全数字大规模MIMO，其中所有波束形成和预编码都在基带中以数字方式执行，并且每个天线元件都需要射频(RF)链。在第二种被称为混合大规模MIMO的架构中，波束形成和预编码分两个阶段完成，在较少的数字端口上进行数字预编码，然后在大量天线元件上进行模拟波束形成。在本文中，我们对每种方法的实现挑战进行了比较。我们介绍了高清有源天线系统(HDAAS)，这是一种新的可扩展架构，用于实现混合大规模MIMO系统。这种设计理念用于构建BeamCraft500，我们相信这是第一个商业混合3D波束形成系统，工作在2ghz。我们还介绍了在实时LTE网络中进行的现场试验的结果，验证了该系统在现实世界条件下的稳定性和性能。

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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2018 IEEE 5G World Forum (5GWF)

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