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http://dx.doi.org/10.3745/JIPS.04.0117

The Design of Remote Monitoring and Warning System for Dangerous Chemicals Based on CPS  

Kan, Zhe (School of Information and Control Engineering, Liaoning Shihua University)
Wang, Xiaolei (School of Computer and Communication Engineering, Liaoning Shihua University)
Publication Information
Journal of Information Processing Systems / v.15, no.3, 2019 , pp. 632-644 More about this Journal
Abstract
The remote monitoring and warning system for dangerous chemicals is designed with the concept of the Cyber-Physical System (CPS) in this paper. The real-time perception, dynamic control, and information service of major hazards chemicals are realized in this CPS system. The CPS system architecture, the physical layer and the applacation layer, are designed in this paper. The terminal node is mainly composed of the field collectors which complete the data acquisition of sensors and video in the physical layers, and the use of application layer makes CPS system safer and more reliable to monitor the hazardous chemicals. The cloud application layer completes the risk identification and the prediction of the major hazard sources. The early intelligent warning of the major dangerous chemicals is realized and the security risk images are given in the cloud application layer. With the CPS technology, the remote network of hazardous chemicals has been completed, and a major hazard monitoring and accident warning online system is formed. Through the experiment of the terminal node, it can be proved that the terminal node can complete the mass data collection and classify. With this experiment it can be obtained the CPS system is safe and effective. In order to verify feasible, the multi-risk warning based on CPS is simulated, and results show that the system solves the problem of hazardous chemicals enterprises safety management.
Keywords
Cloud Services; Cyber-Physical System (CPS); Dangerous Chemicals; Data Collector; Remote Monitoring and Warning;
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1 T. W. Morgan, A. Vertkov, K. Bystrov, I. Lyublinski, J. W. Genuit, and G. Mazzitelli, "Power handling of a liquid-metal based CPS structure under high steady-state heat and particle fluxes," Nuclear Materials and Energy, vol. 12, pp. 210-215, 2017.   DOI
2 J. Liang, J. T. Yang, P. Y. Wu, "A graded pedestrian flow early warning for an ancient street," Procedia Engineering, vol. 135, pp. 118-122, 2016.   DOI
3 M. Niu, S. Zhu, C. Du, N. Yang, and W. Xu, "Study and application of typical disaster monitoring and early warning system in metal mine," Procedia Engineering, vol. 45, pp. 125-130, 2012.   DOI
4 C. Liu, R. Huang, W. Zhang, H. Zhao, and Z. Jin, "Analyzing software requirements for cyber physical systems," Chinese Journal of Computers, vol. 39, no. 11, pp. 2344-2354, 2016.
5 H. Fleischmann, J. Kohl, and J. Franke, "A modular architecture for the design of condition monitoring processes," Procedia CIRP, vol. 57, pp. 410-415, 2016.   DOI
6 R. Alur, Principles of Cyber-Physical Systems. Cambridge, MA: MIT Press, 2015.
7 A. Stefanov and C. C. Liu, "Cyber-physical system security and impact analysis," IFAC Proceedings Volumes, vol. 47, no. 3, pp. 11238-11243, 2014.   DOI
8 S. Wiesner, E. Marilungo, and K. D. Thoben, "Cyber-physical product-service systems: challenges for requirements engineering," International Journal of Automation Technology, vol. 11, no. 1, pp. 17-28, 2017.   DOI
9 W. Chang, W. Yan, and C. H. Chen, "Customer requirements elicitation and management for product conceptualization," in Concurrent Engineering Approaches for Sustainable Product Development in a Multi-Disciplinary Environment. London: Springer, 2013, pp. 957-968.
10 K. D. Kim and P. R. Kumar, "Cyber-physical systems: a perspective at the centennial," Proceedings of the IEEE, vol. 100(Special Centennial Issue), pp. 1287-1308, 2012.   DOI
11 Identification of Major Hazard Installations for Dangerous Chemicals, GB 18218-2009, 2009.
12 Y. Hao and J. Zhang, "Analysis the risk assessment techniques of dangerous chemicals major hazard in China," Journal of Safety Science and Technology, vol. 8, no. S1, 52-56, 2012.
13 Y. Duo, L. Wei, L. Yu, L. Shi, Z. Song, and Z. Wu, "Researches on risk based method of safety planning of land use for major hazards installations," Journal of Safety Science and Technology, vol. 3, no. 6, pp. 20-23, 2007.   DOI
14 Y. MA, Z. Li, K. Ni, and L. Yang, "A quantitative chemical industry area risk assessment model," Journal of Safety and Environment, vol. 12, no. 5, pp. 239-242, 2012.
15 W. Zhao and Z. Wu, "Research on quantitative risk assessment technology of major hazards," Safety Health & Environment, vol. 12, no. 2, pp. 1-5, 2012.   DOI
16 J. Li, X. Bai, Z. Ren, and J. Wu, "Statistic analysis and countermeasures of hazardous chemicals accidents occurring in China during 2011-2013," Journal of Safety Science and Technology, vol. 10, no. 6, pp. 142-147, 2014.
17 L. Zhao, P. Wu, and K. Xu, "Statistic analysis and countermeasures on dangerous chemical accidents in China," China Safety Science Journal (CSSJ), vol. 19, no. 7, pp. 165-170, 2009.   DOI
18 J. M. Gao and M. R. Zeng, "Current situation and measures of dangerous chemical safety in China," China Occupational Safety and Health Management System Certification, vol. 1, no. 3, pp. 52-55, 2005.
19 R. G. Sharpe, P. A. Goodall, A. D. Neal, P. P. Conway, and A. A. West, "Cyber-physical systems in the reuse, refurbishment and recycling of used electrical and electronic equipment," Journal of Cleaner Production, vol. 170, pp. 351-361, 2018.   DOI
20 W. Zhang, G. Chen, Y. Pan, Q. Liang, and Q. Chen, "Probing into quantitative methodology on safety management and assessment of hazardous chemicals," Journal of Chemical Industry and Engineering (China), vol. 55, no. 4, pp. 682-685, 2004.   DOI