With the continuous improvement of the national design standards of urban road lighting system, the intelligent, automatic, and remote management of urban street lighting system by using modern computer technology and the rapid development of Internet of things technology have become one of the important symbols of modern city. This paper mainly studies the circuit system based on cloud edge fusion outdoor intelligent light networking. Based on the development of wireless networking technology of new light source and sensor and data communication and processing technology of Internet of things, this paper analyzes the development trend and support status of intelligent lighting system, summarizes the overall demand for intelligent lighting system, and proposes a complete set of communication interface software, data‐processing software, operation management software, and street lamp controller group system architecture. The street lamp controller realizes the short distance wireless network through ZigBee technology and realizes the communication interaction of control and state acquisition data by GPRS wireless transmission technology. This paper tests the real‐time performance, packet loss rate, and stability of sensor data service provided by sensor nodes in the system. Finally, the monitoring experiments of the lighting circuit system are carried out, and the status of all street lamps in the centralized controller of street lamps is inquired every 5 min for 20 times. In these 20 times, the success rate of the first return of the switch state of the lamp is 100%, while that of the current and voltage is 98.6%. The experimental results show that the design of the lighting circuit system is feasible and the system runs stable and realizes the intelligent monitoring of the lighting system.

中文翻译：

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基于云边缘融合和户外智能照明网络的电路系统

随着国家对城市道路照明系统设计标准的不断提高，利用现代计算机技术对智能化，自动化和远程管理的城市街道照明系统以及物联网技术的迅猛发展已经成为城市道路照明系统的重要标志之一。现代城市。本文主要研究基于云边缘融合的户外智能光网络的电路系统。基于新型光源和传感器的无线联网技术的发展以及物联网的数据通信与处理技术的发展，本文分析了智能照明系统的发展趋势和支持现状，总结了智能照明系统的总体需求，并提出了建议一整套通讯接口软件，数据处理软件，运营管理软件，以及路灯控制器组系统架构。路灯控制器通过ZigBee技术实现近距离无线网络，并通过GPRS无线传输技术实现控制和状态获取数据的通信交互。本文测试了系统中传感器节点提供的实时性能，丢包率和传感器数据服务的稳定性。最后，对照明电路系统进行了监控实验，每5分钟查询一次路灯集中控制器中所有路灯的状态，共20次。在这20次中，灯的开关状态首次返回的成功率为100％，而电流和电压的成功率为98.6％。