This paper addresses the problem of enabling inter-machine Ultra-Reliable Low-Latency Communication (URLLC) in future 6G Industrial Internet of Things (IIoT) networks. As far as the Radio Access Network (RAN) is concerned, centralized pre-configured resource allocation requires scheduling grants to be disseminated to the User Equipments (UEs) before uplink transmissions, which is not efficient for URLLC, especially in case of flexible/unpredictable traffic. To alleviate this burden, we study a distributed, user-centric scheme based on machine learning in which UEs autonomously select their uplink radio resources without the need to wait for scheduling grants or preconfiguration of connections. Using simulation, we demonstrate that a Multi-Armed Bandit (MAB) approach represents a desirable solution to allocate resources with URLLC in mind in an IIoT environment, in case of both periodic and aperiodic traffic, even considering highly populated networks and aggressive traffic.
翻译:本文讨论了在未来6G工业互联网(IIOT)网络中使机械超可靠低寿命通信(URLLC)成为未来6G工业性物联网(URLLC)的问题,就无线电接入网络(RAN)而言,中央化的预先配置的资源分配要求在上行传输之前向用户设备(UES)分发时间表赠款,这对URLC来说效率不高,特别是在灵活/难以预测的流量的情况下。为了减轻这一负担,我们研究一个基于机器学习的分布式、以用户为中心的计划,在机器学习的基础上,UES自主地选择其上行连接的无线电资源,而不必等待赠款的排定或连接的预先配置。我们通过模拟,我们证明多装甲土匪(MAB)办法是一种可取的解决办法,在IOT环境下,即使考虑到人口稠密的网络和激烈的交通,在定期和周期性交通的情况下,在考虑URLC的情况下,在考虑IIO环境下分配资源。
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