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引用次数: 34
摘要
我们的工作开发了物联网(IoT) LoRa原型,以支持915 MHz频率的温度远程测量。该设备由温度传感器、内存存储、数据处理和使用Web浏览器上的云服务器的数据可视化组成。通过14dbm发射功率下的LoS和Non-LoS现场试验对其性能进行了评价。通过LoRa的物联网平台,连接到网关的低能耗终端设备可以更高效地向其他设备和网络服务器传输数据。我们在印尼大学校园周边地区进行了视线(LoS)和非视线(Non-LoS)条件下的现场试验。结果表明,样机在两种情况下都能很好地工作,而RSSI可能在- 50 dB到- 105 dB之间变化。在100米至700米距离范围内,有LoS条件下的RSSI值为−55 dB ~−90 dB;在100米至400米距离范围内,无LoS条件下的RSSI值为−62 dB ~−99 dB。因此,LoRa被证明可以有效地用于LoS和非LoS条件下的物联网应用,但需要调整具体的设计。
The development of IoT LoRa: A performance evaluation on LoS and Non-LoS environment at 915 MHz ISM frequency
Our work has developed the Internet of Things (IoT) LoRa prototype to support the remote measurement of temperature at the frequency of 915 MHz. The device is structured by a temperature sensor, memory storage, data processing and data visualization using Cloud Server on the Web Browser. The performance is evaluated by both LoS and Non-LoS field trial of 14 dBm transmit power. By using the IoT platform of LoRa, end devices with low energy consumption that connected to gateways, shall perform a more efficient data transmission to other devices and network servers. We conduct field trial on Line of Sight (LoS) and Non-LoS condition in the surrounding area of University Indonesia campus. The results have indicated that prototype is working well on both condition, while RSSI may vary from −50 dB to −105 dB. For LoS condition, RSSI is at intervals of −55 dB to −90 dB for distance of 100 meters to 700 meters, while for Non-LoS condition is at intervals of −62 dB to −99 dB for distance of 100 meters to 400 meters. Accordingly, the LoRa is proven to be efficiently used for the IoT applications of both LoS and Non-LoS condition, while a specific design should be adjusted.
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