Analysis of Latency and Reliability Improvement with Multi-Link Operation over 802.11

2021 IEEE 19th International Conference on Industrial Informatics (INDIN) Pub Date : 2021-07-21 DOI:10.1109/INDIN45523.2021.9557495

Guillermo Lacalle, I. Val, Óscar Seijo, M. Mendicute, D. Cavalcanti, Javier Perez-Ramirez

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引用次数: 13

Abstract

With the uprising of new fields such as robotics, IoT or Augmented Reality, one of the main objectives of industrial modernization is the incorporation of safe and secure wireless technologies in the factory floor. However, nowadays wireless protocols can not fulfill the communication requirements of industrial networks, among which reliability and bound guaranteed latency are probably the most stringent ones. The lack of guaranteed low latency and ultra-high reliability of wireless networks are mainly derived from the error-prone nature of wireless propagation. Multi-link techniques are expected to provide enhanced reliability, latency and also protection against external interference. In this work, we assess the reliability and latency enhancement of the Multi-Link technique proposed in 802.11be. The assessment is done through simulation means using realistic industrial propagation and interference models. The results shown in this paper prove that Multi-Link provides an enhancement in wireless reliability and latency.

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基于802.11的多链路操作延迟和可靠性改进分析

随着机器人、物联网或增强现实等新领域的兴起，工业现代化的主要目标之一是在工厂车间采用安全可靠的无线技术。然而，目前的无线协议还不能满足工业网络的通信需求，其中可靠性和绑定保证延迟可能是最严格的要求。无线网络缺乏保证低延迟和超高可靠性的主要原因是无线传播容易出错。多链路技术有望提供增强的可靠性、延迟和对外部干扰的保护。在这项工作中，我们评估了802.11be中提出的多链路技术的可靠性和延迟增强。利用真实的工业传播和干扰模型，通过仿真手段进行了评估。结果表明，多链路技术提高了无线网络的可靠性和时延。

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2021 IEEE 19th International Conference on Industrial Informatics (INDIN)

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