Industrial IoT Technologies and Applications. Second EAI International Conference, Industrial IoT 2017, Wuhu, China, March 25–26, 2017, Proceedings

Research Article

Design of OPC/DDP-Based Remote Monitoring System for Environmental Protection of the IoT

  • @INPROCEEDINGS{10.1007/978-3-319-60753-5_20,
        author={Hongzhi Pan and Ting Zu and Rong Liu and Bo Liu and Qun Fang and Xin He},
        title={Design of OPC/DDP-Based Remote Monitoring System for Environmental Protection of the IoT},
        proceedings={Industrial IoT Technologies and Applications. Second EAI International Conference, Industrial IoT 2017, Wuhu, China, March 25--26, 2017, Proceedings},
        proceedings_a={INDUSTRIALIOT},
        year={2017},
        month={9},
        keywords={Environmental protection of Internet of Things OPC DTU Data collection Data transmission Visualization},
        doi={10.1007/978-3-319-60753-5_20}
    }
    
  • Hongzhi Pan
    Ting Zu
    Rong Liu
    Bo Liu
    Qun Fang
    Xin He
    Year: 2017
    Design of OPC/DDP-Based Remote Monitoring System for Environmental Protection of the IoT
    INDUSTRIALIOT
    Springer
    DOI: 10.1007/978-3-319-60753-5_20
Hongzhi Pan1,*, Ting Zu1, Rong Liu1, Bo Liu1, Qun Fang1, Xin He1
  • 1: Anhui Normal University
*Contact email: asdphz2015@163.com

Abstract

With the acceleration of industrialization and the increasingly serious environmental problems, environmental protection of internet of things (EPIoT) has been recognized as an efficient way for developing green industries. By analyzing the OPC protocol for the data acquisition and the DDP communication protocol for the data transmission, this paper designs and implements an OPC/DDP-based monitoring system, including automatic monitoring on environmental data, efficient data acquisition, remote scheduling of devices, remote and real-time data visualization. Furthermore, the system uses a reverse proxy technique in data processing to achieve cross domain management and keep the session. The system effectively solves the problem of collecting data and visually displaying data under severe environment. In addition, the design process is optimized by the remote control. Finally, the system provides a reliable support on the decision for environmental management.