雷达增强毫米波敏捷波束控制:演示

Proceedings of the Tenth ACM International Workshop on Wireless Network Testbeds, Experimental Evaluation, and Characterization Pub Date : 2016-10-03 DOI:10.1145/2980159.2980171

J. Arnold, L. Simić, M. Petrova, P. Mähönen

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引用次数: 1

摘要

我们演示了RadMAC，一种雷达增强MAC协议，用于敏捷毫米波波束导向，支持无缝高速无线连接。RadMAC利用雷达跟踪移动的障碍物，并通过先发制人的波束切换到/从最佳无阻塞的次毫米波链路来避免主毫米波链路中断。我们的RadMAC概念验证实现基于开源软件定义的毫米波收发器，工作频率为60 GHz，结合毫米波单芯片雷达平台。在演示中，我们设置了一个链路阻塞实验，其中一个人走过AP和客户机节点之间的LOS链路。我们将展示当障碍物接近并通过次级NLOS链路时，向/从次级NLOS链路重新转向。实时障碍物跟踪雷达数据将被显示，RadMAC将根据这些数据做出波束切换决策。还将显示毫米波链路质量的实时RSS测量结果，以说明RadMAC在室内网络环境中保持稳定的高速数据速率的好处。

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Radar-enhanced mm-wave agile beamsteering: demo

We demonstrate RadMAC, a radar-enhanced MAC protocol for agile mm-wave beamsteering supporting seamless high speed wireless connectivity. RadMAC uses radar to track moving obstacles and avoid primary mm-wave link disruption by preemptively beam-switching to/from the best unblocked secondary mm-wave link. Our RadMAC proof-of-concept implementation is based on an open-source software defined mm-wave transceiver operating at 60 GHz combined with a mm-wave single-chip radar platform. In the demonstration, we set up a link blockage experiment where a human walks through the LOS link between the AP and client node. We will show re-steering to/from a secondary NLOS link as the obstacle approaches and passes through the link. Real-time obstacle tracking radar data will be displayed, based on which RadMAC makes its beam-switching decisions. Real-time RSS measurements of the mm-wave link quality will also be displayed, to illustrate the benefit of RadMAC for maintaining a stable high-speed data rate in obstacle-rich indoor network environments.

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Proceedings of the Tenth ACM International Workshop on Wireless Network Testbeds, Experimental Evaluation, and Characterization

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