基于无线TSN冗余的移动机器人零延迟漫游

Susruth Sudhakaran, Ibrahim Ali, Mark Eisen, Javier Perez-Ramirez, Cosmin Cazan, V. Frascolla, D. Cavalcanti
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引用次数: 0

摘要

移动和自主机器人是最关键的技术应用之一,需要具有确定性性能的无线连接,包括具有高可靠性的有限延迟,即使在拥挤的网络条件下也是如此。基于Wi-Fi和5G的新兴无线时间敏感网络(WTSN)功能可以通过时间感知调度机制实现时间同步和有限的低延迟。这种无线TSN功能已经在几个工业/机器人用例中得到了证明,但都是在静态条件下。由于漫游事件和相关的网络中断(由于在这些事件期间客户机设备和网络基础设施之间的信令),移动性带来了新的挑战。在本文中,我们展示了如何利用TSN冗余能力(如IEEE 802.1CB标准中定义的)来消除由于Wi-Fi 6 TSN支持的移动机器人用例中的漫游和干扰等事件而导致的中断或延迟。我们通过工厂场景中移动机器人的模拟和仓库环境中通过多个Wi-Fi 6无线电连接的移动机器人的实验结果,证明了漫游性能对应用程序没有延迟影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Zero-Delay Roaming for Mobile Robots Enabled by Wireless TSN Redundancy
Mobile and autonomous robots are among the most critical technology applications requiring wireless connectivity with deterministic performance, including bounded latency with high reliability, even under congested network conditions. Emerging Wireless Time-Sensitive Networking (WTSN) capabilities over Wi-Fi and 5G can enable time synchronization and bounded low latency through time-aware scheduling mechanisms. Such Wireless TSN capabilities have been demonstrated in several industrial/robotic use cases, but under static conditions. Mobility introduces new challenges due to the roaming events and associated network outages owing to signaling between client devices and network infrastructure during these events. In this paper, we show how we can take advantage of the TSN redundancy capability (as defined in the IEEE 802.1CB standard) to eliminate outages or delays due to events like roaming and interference in a mobile robot use case enabled by Wi-Fi 6 TSN. We demonstrate the roaming performance with no delay impact on the applications though simulations of a mobile robot in a factory scenario and experimental results with a mobile robot connected via multiple Wi-Fi 6 radios in a warehouse environment.
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