Uplink Multi-User Beamforming on Single RF Chain mmWave WLANs

IEEE INFOCOM 2021 - IEEE Conference on Computer Communications Pub Date : 2021-05-10 DOI:10.1109/INFOCOM42981.2021.9488826

Keerthi Priya Dasala, J. Jornet, E. Knightly

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引用次数: 4

Abstract

Today’s mmWave WLANs can realize simultaneous multi-user multi-stream transmission solely on the downlink. In this paper, we present Uplink Multi-user Beamforming on single RF chain AP (UMBRA), a novel framework for supporting multi-stream multi-user uplink transmissions via a single RF chain. We design multi-user overlayed constellations and multi-user receiver mechanisms to enable concurrent time-triggered uplink multi-user transmissions received on a single RF chain AP. We devise exemplary beam selection policies to jointly adapt beams at users and the AP for targeting aggregate rate maximization without increasing training requirements compared to single-user systems. We implement the key components of UMBRA using a programmable WLAN testbed using software-defined radios and commercial 60-GHz transceivers and collect over-the-air measurements using phased-array antennas and horn antennas with varying beamwidth. We find that in comparison to single-user transmissions, UMBRA achieves more than 1.45× improvement in aggregate rate regardless of the choice of the user group, geometric separation, and receiver beamwidth.

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单射频链毫米波无线局域网的上行多用户波束形成

目前的毫米波无线局域网仅在下行链路上就可以实现多用户多流同时传输。在本文中，我们提出了基于单射频链AP的上行多用户波束形成(UMBRA)，这是一种支持通过单射频链进行多流多用户上行传输的新框架。我们设计了多用户覆盖星座和多用户接收器机制，以实现在单个射频链AP上接收并发时间触发上行多用户传输。我们设计了示例性波束选择策略，以共同适应用户和AP的波束，以实现总速率最大化，而不增加与单用户系统相比的培训要求。我们使用软件定义无线电和商用60 ghz收发器的可编程WLAN测试平台实现UMBRA的关键组件，并使用具有不同波束宽度的相控阵天线和喇叭天线收集空中测量数据。我们发现，与单用户传输相比，无论用户组、几何距离和接收器波束宽度的选择如何，UMBRA的聚合速率都提高了1.45倍以上。

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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IEEE INFOCOM 2021 - IEEE Conference on Computer Communications

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