Trace-Driven Simulation for LoRaWan868 MHz Propagation in an Urban Scenario

2019 UK/ China Emerging Technologies (UCET) Pub Date : 2019-08-01 DOI:10.1109/UCET.2019.8881854

Eugen Harinda, H. Larijani, Ryan M. Gibson

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引用次数: 2

Abstract

Long-range, low-power wide area network (Lo-Ra WAN) is a very scalable solution for the Internet of Things (IoT). Performance evaluation of LoRaWAN in Urban environments is a challenging task. Theoretical modeling results have been inaccurate. In this paper, a trace-driven simulation for LoRaWAN 868 MHz propagation was performed using GPS data and their corresponding LoRaWanreceived signal level. The dataset has been extracted from 5015 datasets of LoRaWAN measurements taken from Glasgow city center. ICS-Telecom was used to simulate the real-world urban environment. Comparison of trace-simulated results and the real-world data is performed to evaluate the prediction accuracy of Deygout 94, ITU-R 525/526 and COST-Walfish Ikegami (COST-WI) propagation models. All models over-estimated LoRaWAN trace-simulated received signal strength (RSS) levels in comparison to real-world collected samples. While Deygout 94 prediction accuracy was higher with mean absolute error (MAE) at 0.83 dBm and standard deviation (SD) at 4.17 dBm, COST-WI performed poorly with MAE and SD at 2.87 dBm and 10.96 dBm respectively.

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城市场景下lorawan868mhz传播的跟踪驱动仿真

远程、低功耗广域网(Lo-Ra WAN)是物联网(IoT)的一种非常可扩展的解决方案。城市环境下LoRaWAN的性能评估是一项具有挑战性的任务。理论模拟结果并不准确。本文利用GPS数据和相应的LoRaWAN接收信号电平，对LoRaWAN 868 MHz的传播进行了跟踪驱动仿真。该数据集是从格拉斯哥市中心的5015个LoRaWAN测量数据集中提取的。ICS-Telecom被用来模拟真实的城市环境。将跟踪模拟结果与实际数据进行比较，以评估Deygout 94、ITU-R 525/526和COST-Walfish Ikegami (COST-WI)传播模型的预测精度。与实际收集的样本相比，所有模型都高估了LoRaWAN跟踪模拟的接收信号强度(RSS)水平。Deygout 94预测精度较高，平均绝对误差(MAE)为0.83 dBm，标准差(SD)为4.17 dBm，而COST-WI预测精度较差，平均绝对误差和标准差分别为2.87 dBm和10.96 dBm。

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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2019 UK/ China Emerging Technologies (UCET)

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