RSSI Measurement Analysis of Zigbee-Based Wireless Sensor Networks in Various Topologies for Solar Panel Monitoring

Majalah Ilmiah Teknologi Elektro Pub Date : 2024-01-24 DOI:10.24843/mite.2023.v22i02.p14

Dodi Setiabudi, Daris Irfan Atmaja, Dedy Wahyu Herdiyanto, Gamma Aditya Rahardi

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Abstract

Abstract— Solar panels require performance monitoring when energy shortages occur in the area. Monitoring solar panels requires a detection device to detect solar panels, including the ACS712 current sensor for monitoring the output current of the solar panel, a DC voltage sensor for monitoring battery performance, and a DHT11 temperature sensor for monitoring the temperature of the solar panel storage battery. The WSN technology that can work is ZigBee communication. This ZigBee communication research uses various topology methods, including star, tree, and mesh topologies. Solar panel monitoring tests are carried out indoors and outdoors. The ZigBee communication device used is the XBee S2C device, which operates at a frequency of 2.4 GHz. From a comparison of various topologies, the mesh topology is a topology with good performance because it has the characteristic of choosing a router with the fastest path to reach the coordinator. It is proven by monitoring solar panels with an optimal distance of 80 m, which is carried out from outdoors with an RSSI value of -84 dBm, a throughput of 0.55 kbps, and a delay of 2.77 ms, producing power for 150 minutes with an average current of 0.14 A, voltage of 9.86 V, and temperature of 31.48°C. The number of disturbances and weather conditions greatly affect signal propagation, which can hamper the data transmission process. Throughput fluctuates due to uncertain weather conditions, and delay fluctuates due to a lot of interference from other radio signals. Keyworrds— Wireless Sensor Nirbael (WSN), RSSI, ZigBee, Panel Surya, Thinger.IO

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各种拓扑结构中基于 Zigbee 的无线传感器网络的 RSSI 测量分析，用于太阳能电池板监测

摘要- 当该地区出现能源短缺时，需要对太阳能电池板的性能进行监测。监测太阳能电池板需要一个检测设备，包括用于监测太阳能电池板输出电流的 ACS712 电流传感器、用于监测蓄电池性能的直流电压传感器和用于监测太阳能电池板蓄电池温度的 DHT11 温度传感器。可以发挥作用的 WSN 技术是 ZigBee 通信。这项 ZigBee 通信研究使用了多种拓扑方法，包括星形、树形和网状拓扑。太阳能电池板监控测试在室内和室外进行。使用的 ZigBee 通信设备是 XBee S2C 设备，其工作频率为 2.4 GHz。通过对各种拓扑结构的比较，网状拓扑结构性能良好，因为它具有选择最快路径的路由器到达协调器的特性。通过对最佳距离为 80 米的太阳能电池板进行监控证明了这一点，监控在室外进行，RSSI 值为 -84 dBm，吞吐量为 0.55 kbps，延迟为 2.77 ms，发电时间为 150 分钟，平均电流为 0.14 A，电压为 9.86 V，温度为 31.48°C。干扰的数量和天气条件对信号传播有很大影响，会妨碍数据传输过程。吞吐量因不确定的天气条件而波动，延迟因其他无线电信号的大量干扰而波动。关键词：无线传感器网络（WSN）、RSSI、ZigBee、Panel Surya、Thinger.IO

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Majalah Ilmiah Teknologi Elektro

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32 weeks