The article provides an analysis and reports experimental validation of the various performance metrics of the LoRa low-power wide-area network technology. The LoRa modulation is based on chirp spread spectrum, which enables use of low-quality oscillators in the end device, and to make the synchronization faster and more reliable. Moreover, LoRa technology provides over 150?dB link budget, providing good coverage. Therefore, LoRa seems to be quite a promising option for implementing communication in many diverse Internet of Things applications. In this article, we first briefly overview the specifics of the LoRa technology and analyze the scalability of the LoRa wide-area network. Then, we introduce setups of the performance measurements. The results show that using the transmit power of 14?dBm and the highest spreading factor of 12, more than 60% of the packets are received from the distance of 30?km on water. With the same configuration, we measured the performance of LoRa communication in mobile scenarios. The presented results reveal that at around 40?km/h, the communication performance gets worse, because duration of the LoRa-modulated symbol exceeds coherence time. However, it is expected that communication link is more reliable when lower spreading factors are used.
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机译:本文提供了分析并报告了LoRa低功耗广域网技术的各种性能指标的实验验证。 LoRa调制基于线性调频扩频,可以在终端设备中使用低质量的振荡器,并使同步更快,更可靠。此外,LoRa技术可提供超过150?dB的链路预算,从而提供良好的覆盖范围。因此,LoRa似乎是在许多不同的物联网应用程序中实现通信的很有前途的选择。在本文中,我们首先简要概述LoRa技术的细节,并分析LoRa广域网的可伸缩性。然后,我们介绍性能测量的设置。结果表明,使用14?dBm的发射功率和12的最大扩展因子,从30?km的水上距离接收了60%以上的数据包。使用相同的配置,我们测量了移动场景中LoRa通信的性能。呈现的结果表明,由于LoRa调制符号的持续时间超过了相干时间,因此在大约40 km / h的速度下,通信性能变得更差。但是,期望在使用较低的扩展因子时通信链路更加可靠。
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