Traffic Control and Channel Assignment for Quality Differentiation in Dense Urban LoRaWANs

2022 20th International Symposium on Modeling and Optimization in Mobile, Ad hoc, and Wireless Networks (WiOpt) Pub Date : 2022-09-19 DOI:10.23919/WiOpt56218.2022.9930551

A. Aimi, F. Guillemin, Stéphane Rovedakis, Stefano Secci

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引用次数: 2

Abstract

Service quality differentiation is gaining popularity in IoT networks, notably in LoRaWAN, with the rapid widespread of applications on connected devices. There is clearly a business demand for quality in IoT in the context of smart cities and network operators are urged by application designer to offer quality differentiation. However, those types of networks have been designed on the basis of a best effort service model. In particular, Packet Delivery Ratio (PDR) can dramatically decrease in dense scenarios. In this paper, we propose and evaluate traffic control and channel assignment solutions for PDR differentiation in dense deployments. Several performance criteria are defined in order to analyze the gain achieved by a network operator as well as end users. Numerical results show that both players can benefit from quality differentiation with ad-hoc pricing. This proves to be effective if penalizing low requirement devices, as they can create a bottleneck in the system. Namely, we show that in high density settings we can reach a 20% better PDR with one of the proposed policies, improving mean device servicing rate by 10% and the operator gain by 7.5%.

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密集城市LoRaWANs质量分异的交通控制与通道分配

随着连接设备上的应用迅速普及，服务质量差异化在物联网网络中越来越受欢迎，尤其是在LoRaWAN中。在智慧城市的背景下，物联网显然存在对质量的业务需求，应用程序设计人员敦促网络运营商提供质量差异化。然而，这些类型的网络是在尽力而为服务模型的基础上设计的。特别是，在密集的场景中，包交付率(Packet Delivery Ratio, PDR)可以显著降低。在本文中，我们提出并评估了密集部署中PDR差异化的流量控制和信道分配解决方案。为了分析网络运营商和终端用户获得的增益，定义了几个性能标准。数值结果表明，双方都能从质量差异化中获益。如果惩罚低需求设备，这证明是有效的，因为它们可能在系统中创建瓶颈。也就是说，我们表明，在高密度环境下，我们可以通过其中一种策略提高20%的PDR，将平均设备维修率提高10%，运营商收益提高7.5%。

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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2022 20th International Symposium on Modeling and Optimization in Mobile, Ad hoc, and Wireless Networks (WiOpt)

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