Abstract
Aiming at problems in work safety and accident rescue occurred in coal mine, cyber-physical systems (CPS) is introduced into underground coal mine. According to environment parameters and considering special applications, a model of CPS for coal mine, which has the ability of sensing surroundings, auto warning, intelligent control and personnel location, is constructed. Based on relative theoretical researches, three key technologies for CPS under complicated environment are presented, which are information perceiving, computing and collaborative control. The implementation of mine-oriented CPS could improve the safety in production and accelerate the development of coal mine.
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References
Lee E (2006) Cyber-physical systems: are computing foundations adequate? Position paper, NSF workshop on Cyber-Physical systems: research motivation techniques and roadmap, London
He J (2010) Cyber-physical systems. In: Communications of the CCF Beijing, 47:25–29
Morris T, Srivastava A, Reaves B (2009) Engineering future Cyber-physical energy systems: challenges, research needs and roadmap. In: 41st North American power symposium
Work D, Bayen A (2008) Impacts of the mobile internet on transportation cyberphysical systems: traffic monitoring using smartphones. National workshop for research on high-confidence transportation cyber-physical systems, Washington, pp 18–20
Tang H, McMillin B (2008) Analysis of the security of information flow in the advanced electric power grid using flexible alternating current transmission system (FACTS). In: 1st Annual IFIP international conference on critical infrastructure protection, Springer, pp 43–56
Work D, Bayen A, Jacobson Q (2008) Automotive cyber physical systems in the context of human mobility. National workshop on high-confidence automotive cyber-physical systems. Troy, MI
David A, Fischmeister S, Goldman J, Lee I, Robert T (2009) Plug-and-play for medical devices experiences from a case study. Biomed Instrum Technol 43:313–317
Lee A, Matic S, Seshia S, Zou J (2009) The case for timing-centric distributed software. 29th IEEE international conference on distributed computing systems, Canada, pp 57–64
Lee A (2008) Cyber physical systems: design challenges. In: 11th IEEE international symposium on object/component/service-oriented real-time distributed computing (ISORC ‘08), pp 363–369
Acknowledgments
Financial support for this work, sponsored by Qing Lan Project, National Science Foundation of China under grant No.50904070, the China Postdoctoral Science Foundation No. 20100471412, the Key Project of the National High Technology Research and Development Program of China (863 Program) under grant No. 2008AA062200, the National High Technology Research and Development Program of China (863 Program) under grant No. 2007AA01Z180, the Key Project of Jiangsu under grant No. BG2007012, and the Science Foundation of China University of Mining and Technology under Grant No. OC080303, are gratefully acknowledged.
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Sun, Y., Yu, M., He, Y., Ding, X. (2012). Model of Cyber-Physical Systems for Underground Coal Mine. In: Yang, Y., Ma, M. (eds) Green Communications and Networks. Lecture Notes in Electrical Engineering, vol 113. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-2169-2_1
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DOI: https://doi.org/10.1007/978-94-007-2169-2_1
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