A Comparative Study of Machine Learning Models for Spreading Factor Selection in LoRa Networks

Int. J. Wirel. Networks Broadband Technol. Pub Date : 1900-01-01 DOI:10.4018/IJWNBT.2021070106

C. Bouras, A. Gkamas, Spyridon Aniceto Katsampiris Salgado, Nikolaos Papachristos

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引用次数: 7

Abstract

Low power wide area networks (LPWAN) technologies offer reasonably priced connectivity to a large number of low-power devices spread over great geographical ranges. Long range (LoRa) is a LPWAN technology that empowers energy-efficient communication. In LoRaWAN networks, collisions are strongly correlated with spreading factor (SF) assignment of end-nodes which affects network performance. In this work, SF assignment using machine learning models in simulation environment is presented. This work examines three approaches for the selection of the SF during LoRa transmissions: 1) random SF assignment, 2) adaptive data rate (ADR), and 3) SF selection through machine learning (ML). The main target is to study and determine the most efficient approach as well as to investigate the benefits of using ML techniques in the context of LoRa networks. In this research, a library that enables the communication between ML libraries and OMNeT++ simulator was created. The performance of the approaches is evaluated for different scenarios using the delivery ratio and energy consumption metrics.

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LoRa网络中扩展因子选择的机器学习模型比较研究

低功耗广域网(LPWAN)技术为分布在广大地理范围内的大量低功耗设备提供价格合理的连接。远程(LoRa)是一种LPWAN技术，可实现节能通信。在LoRaWAN网络中，冲突与终端节点的扩散因子分配密切相关，从而影响网络性能。本文介绍了在仿真环境下利用机器学习模型进行SF分配的方法。这项工作研究了在LoRa传输过程中选择SF的三种方法:1)随机SF分配，2)自适应数据速率(ADR)和3)通过机器学习(ML)选择SF。主要目标是研究和确定最有效的方法，以及调查在LoRa网络环境中使用ML技术的好处。在本研究中，创建了一个实现ML库与omnet++模拟器之间通信的库。使用交付比和能耗指标对不同场景的方法性能进行了评估。

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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Int. J. Wirel. Networks Broadband Technol.

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