Author:
Murdyantoro Eko,Setiawan Ridlo,Rosyadi Imron,Nugraha Azis WW,Susilawati Hesti,Ramadhani Yogi
Abstract
Abstract
This study develops a prototype of a weather station with LoRa wireless infrastructure. LoRa is a wireless connectivity technology supporting the internet of things (IoT) system. This technology is an alternative to other wireless connectivity modules that have already been popular such as GSM modules, Wifi Modules and Bluetooth (BLE). The use of the LoRa network serves to increase the range of wireless cells that can reach distances of up to 5 kilometers while still having low power consumption. One LoRa network cell can connect end devices to hundreds of nodes. Weather parameters measured include temperature, humidity, air pressure, rain detection, and wind speed. The prototype consists of Arduino UNO, DHT11 sensor, raindrop sensor, anemometer sensor, BMP180 sensor, LoRa shield, LoRa Gateway, and ThingSpeak web application. While the number of end device nodes built is 3 nodes in one cell. As a result, the system can function properly. This system has the potential to be implemented in urban and rural areas with various types of sensors connected. Between cells can be managed to form a Low Power-Wide Area Network as a wider sensor network.
Subject
General Physics and Astronomy
Reference8 articles.
1. Perbaikan Metode Prakiraan Cuaca Bandara Abdulrahman Saleh Dengan Algoritma Neural Network Backpropagation;Yuniar;J. EECCIS.,2013
2. Rancang Bangun Mini Weather Menggunakan Web Berbasis Arduino ATMEGA 2560;Salindri;Transient: Jurnal Ilmu Teknik Elektro,2015
3. Rancang Bangun Perangkat Pemantau Cuaca Otomatis Berbasis Mikrokontroler pada Jaringan WLAN IEEE 802.11b;Sucipto;SPEKTRUM,2017
4. Performance of a low-power wide-area network based on LoRa technology: Doppler robustness, scalability, and coverage;Petajajarvi;Int. J. Distrib. Sens. Netw.,2017
5. Development and Range Testing of a LoRaWAN System in an Urban Environment;Harris;Int. J. Electron. Commun. Eng.,2018
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