基于深度学习的LoRaWAN网络自适应数据速率算法

IF 7.6 3区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS

Internet of Things Pub Date : 2025-10-09 DOI:10.1016/j.iot.2025.101786

Luca Leonardi , Giancarlo Iannizzotto , Mattia Pirri , Gaetano Patti , Alessio Pirri , Lucia Lo Bello

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引用次数: 0

摘要

LoRaWAN正在成为多个物联网（IoT）应用的关键协议，因为它可以在大量终端设备之间以低功耗进行远程通信。LoRaWAN终端设备的特点是有许多可配置的传输参数，需要仔细选择这些参数的值，因为它们会对网络性能产生重大影响。Semtech推荐的自适应数据速率ADR （Adaptive Data Rate）算法通过动态调整LoRaWAN终端设备的传输参数来提高网络的可靠性，同时保持较低的能耗。然而，ADR是一种基于规则的算法，不适合动态物联网场景，因为在动态物联网场景中，网络条件变化很大，终端设备在传感区域内移动。相比之下，深度学习技术似乎是一个很有前途的解决方案，可以在这种动态物联网环境中设置LoRaWAN终端设备的传输参数，这要感谢它们能够从非线性、状态相关的数据模型中学习。为此，本文提出了一种基于深度学习的机制Rel-ADR，该机制动态调整LoRaWAN终端设备的传输参数，以提高传输可靠性，同时在动态密集网络中保持低功耗。本文介绍了Rel-ADR的设计，并通过omnet++仿真在现实场景中获得了Rel-ADR与文献中现有方法的广泛性能比较评估结果。

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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A deep learning-based Adaptive Data Rate algorithm for LoRaWAN networks

LoRaWAN is emerging as a key protocol for several Internet of Things (IoT) applications, as it enables long-range communication with low power consumption between a large number of end-devices. LoRaWAN end-devices are characterized by a number of configurable transmission parameters, whose values need to be carefully selected, as they significantly influence the network performance. The Adaptive Data Rate (ADR) algorithm recommended by Semtech dynamically adjusts the transmission parameters of LoRaWAN end-devices to improve the network reliability while keeping energy consumption low. However, ADR is a rule-based algorithm not suitable for dynamic IoT scenarios in which the network conditions can be highly variable and the end-devices move around in the sensing area. In contrast, deep learning techniques appear a promising solution to set the transmission parameters of LoRaWAN end-devices in such dynamic IoT environments, thanks to their ability to learn from data a non-linear, state-dependent model. For this reason, this paper proposes a deep learning-based mechanism, called Rel-ADR, that dynamically tunes the transmission parameters of LoRaWAN end-devices to improve the transmission reliability, while maintaining low power consumption in dynamic and dense networks. The paper presents the design of Rel-ADR and the results of an extensive comparative performance evaluation between Rel-ADR and existing approaches in the literature, obtained through OMNeT++ simulations in realistic scenarios.

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来源期刊

Internet of Things Multiple-

CiteScore

3.60

自引率

5.10%

发文量

115

审稿时长

37 days

期刊介绍： Internet of Things; Engineering Cyber Physical Human Systems is a comprehensive journal encouraging cross collaboration between researchers, engineers and practitioners in the field of IoT & Cyber Physical Human Systems. The journal offers a unique platform to exchange scientific information on the entire breadth of technology, science, and societal applications of the IoT. The journal will place a high priority on timely publication, and provide a home for high quality. Furthermore, IOT is interested in publishing topical Special Issues on any aspect of IOT.