A Study of LoRa Signal Propagation in Hilly Suburban Area for Smart City Applications

2021 IEEE 7th International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA) Pub Date : 2021-08-23 DOI:10.1109/ICSIMA50015.2021.9526306

R. Anzum, M. H. Habaebi, M. R. Islam, G. Hakim

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引用次数: 2

Abstract

Long-range (LoRa) is a wireless LPWAN (Low Power Wide Area Network) communication technology has been developed for many Internet-of-Things (IoT) applications in industrial sectors as well as smart city applications. The performance of LoRa can be affected by environmental factors that was witnessed in recent research trends. Other geological factors like terrain types may also have an impact on the link performance. Hence, this paper highlights the geological factors that affect LoRa performance in hilly area propagation for smart city applications. In addition, an experiment was carried out using 915MHz frequency in the hilly suburban region of Kuala Lumpur, Malaysia to investigate the performance of LoRa utilizing different spreading factors (SF7, SF8, SF10, SF12) and putting the receiver in various altitude scenarios. The RSSI and packet receive ratio (PRR) were used to determine the coverage and performance analysis in hilly suburban area. The outcome of this study shows that the LoRa signal propagation is affected by the hilly terrain scenarios. Because of the hilly region, the coverage could be as limited as 1.25Km and the packet receive ratio was reduced by 65%. Further research is needed to clarify the detailed propagation scenario between the transmitter and receiver in hilly areas to propose an optimal propagation model for a suburban hilly terrain.

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面向智慧城市应用的城郊丘陵地区LoRa信号传播研究

远程(LoRa)是一种无线LPWAN(低功率广域网)通信技术，已经发展到工业领域的许多物联网(IoT)应用以及智慧城市应用。在最近的研究趋势中，LoRa的性能会受到环境因素的影响。其他地质因素如地形类型也可能对连接性能产生影响。因此，本文重点研究了影响LoRa在智慧城市应用中丘陵地区传播性能的地质因素。此外，在马来西亚吉隆坡的丘陵郊区进行了915MHz频率的实验，研究了不同扩频因子(SF7、SF8、SF10、SF12)和不同海拔场景下的LoRa性能。采用RSSI和包接收比(PRR)确定城郊丘陵地区的覆盖范围并进行性能分析。研究结果表明，丘陵地形对LoRa信号的传播有一定的影响。由于丘陵地区，覆盖范围可能限制在1.25Km，数据包接收率降低了65%。需要进一步研究明确丘陵地区发射机和接收机之间的详细传播场景，以提出郊区丘陵地形的最优传播模型。

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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来源期刊

2021 IEEE 7th International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA)

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