Design And Construction of Public Street Lighting System Based on Internet of Things
Keywords:
Public Street Lighting, IoT, LoRa, MQTT, Node-REDAbstract
This study examines the design and implementation of an Internet of Things-based Public Street Lighting system that integrates WLAN communication and high-quality system design to improve real-time performance, energy efficiency, and dini detection. The architecture system uses an ESP32 microcontroller for control, a LoRa E220 for wide-band data transmission, and a WLAN for local communication. The MQTT protocol is used to transfer data between nodes, gateways, and dashboards that are connected by Node-RED. The results of WLAN testing show that the transmission time between 10 and 20 seconds in a 1000-meter range, and even under non-line of sight conditions, can be achieved. The systematic design process and the results of various work tasks are discussed, providing insight into the scalability and effectiveness of the system in reducing energy consumption and increasing operational efficiency.
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