Abstract
The application of the gateway enables the data of the perception layer of the power Internet of things to be transmitted in the heterogeneous network, which significantly improves the automatic control level of the distribution network. Therefore, the development of an IoT intelligent gateway has its specific engineering application value. This paper proposes a solution for an IoT smart gateway that integrates multiple communication methods and is compatible with multiple communication protocols. The gateway can use Ethernet, WiFi and 4G network communication methods, and integrates communication protocols such as Modbus RTU protocol, Modbus TCP protocol, IEC104 protocol and MQTT protocol. Using the gateway, on the host computer supporting different communication protocols, various data acquisition devices connected to the gateway can be monitored and analyzed in real time, and the devices connected to the gateway can be controlled locally and remotely. In the real engineering of the project, the gateway realizes the monitoring and control of various power data acquisition equipment by the local computer and cloud server, which significantly reduces the cost of manual inspection and ensures the stable operation of various power data acquisition equipment.
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References
Cheng, L., Chen, G., Ding, H., et al.: Development of an intelligent gateway for power distribution rooms based on the Internet of Things in electric power. Hubei Electric Power 45(5), 91–97 (2021). (in Chinese)
Yang, S., Yang, S., Fei, Z.: Development of a power distribution room operation status monitoring system based on IEC104 protocol. Electrotech. Technol. 2020(13), 110–112+119 (2020). (in Chinese)
Li, Q., Wang, X., Zhang, S.: Design and Implementation of Linux-based Power Gateway. Appl. Electron. Technol. 46(11), 70–73+78 (2020). (in Chinese)
Zhao, Y.: Design and implementation of Zigbee/GPRS Internet of Things gateway system. Changjiang Inf. Commun. 34(12), 108–110 (2021). (in Chinese)
Yang, S., Li, Y.: Design of wireless sensor gateway based on ZigBee and WIFI. J. Shanxi Univ. 41(03), 572–578 (2018). (in Chinese)
Hu, C., Luo, D., Tong, H.: Design of industrial energy consumption gateway system based on modbus and MQTT. Internet Things Technol. 9(04), 49–54 (2019). (in Chinese)
Lei, W.: Data on cloud practice based on alibaba cloud IOT Platform. In: 4th International Conference on Wireless Communications and Applications, pp 251–258. Springer, Chongqing (2021)
Zhang, Z., Shen, L.: Design and implementation of IEC104 plug-in based on Suricata. Commun. Technol. 54(01), 251–258 (2021). (in Chinese)
Tian, J., Yu, Z., Liu, L., et al.: An abnormal traffic detection method in smart substations based on coupling field extraction and DBSCAN. In: 2021 International Conference on Advanced Energy, Power and Electrical Engineering, pp 205–214. EDP Sciences, Bei**g(2021)
Wu, K., Ding, X., An, S., et al.: Design and implementation of a real-time data acquisition system based on IEC61870–5–104 for distribution network. In: 2015 IEEE 6th International Conference on Software Engineering and Service Science, pp 794–797. IEEE, Bei**g (2015)
Acknowledgments
This research was partially funded by the General Program of Fujian Natural Science Foundation 2020J01282, and by the **amen University of Technology Science and Technology Climbing Project XPDKT19023.
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Zeng, J., Liu, J., Wu, Q., Ge, X., Yang, W. (2023). Design of IoT Intelligent Gateway Oriented by Electric-Power-Automation-Oriented. In: Yang, Q., Li, J., **e, K., Hu, J. (eds) The Proceedings of the 17th Annual Conference of China Electrotechnical Society. ACCES 2022. Lecture Notes in Electrical Engineering, vol 1012. Springer, Singapore. https://doi.org/10.1007/978-981-99-0357-3_81
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DOI: https://doi.org/10.1007/978-981-99-0357-3_81
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