KEYWORDS: Power supplies, Data analysis, Telecommunications, Design and modelling, Internet of things, Control systems, Statistical analysis, Industrial applications, Data modeling, Control systems design
In order to realize the background of large-scale data analysis and control of power equipment development based on Internet of Things, a design idea of power equipment management system and large-scale data system analysis is proposed. This paper firstly introduces the design of power industry control and control system application. The open source electronic information service platform includes customer and interactive terminal. Designing an architecture design system. Using mathematic model and analytic method to analyze, analyze and determine the major data of power supply enterprise. From the conclusion of data analysis, with the system management theory and scientific management method, the inherent regularity of enterprise management and management, the operating process and management result are revealed, which widens the evaluation in the area of energy service, and there is plenty of room for improvement.
KEYWORDS: Data transmission, Internet of things, Environmental monitoring, Telecommunications, Design and modelling, Data acquisition, Power consumption, Sensors, Data communications, Computing systems
In order to ensure the safety and reliability of underground cable trench environment, the remote environmental monitoring technology of pipeline is studied in this paper. The feasibility of low-power wide-area Internet of Things NBIoT technology and local-area Internet of Things ZigBee/Lora/BLE technology in remote monitoring of complex environment in underground cable trench is analyzed in detail. It can meet the reliability and speed requirements of collected data transmission. The system can dynamically evaluate the service life of key hardware equipment in different working modes through data acquisition, so as to ensure the stable operation of power grid, and provide a reference for the future construction of utility tunnel. The acquisition and transmission of the terminal data are tested, and the optimal power parameters are determined in the test to ensure the real-time accuracy of the data transmitted between the terminal node and the coordinator. The real-time data and state monitoring of the PC terminal are tested, and the error within a reasonable range is calculated by using the relative ratio of the actual measured data information and the data information received by the monitoring system interface, indicating that the real-time state monitoring system of the upper computer can operate normally. The entire smart grid monitoring system can achieve the expected design goals.
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