Abstract
We offered an approach to provide and support the safety of the complex system functioning based on the coordination of the interaction between its elements. The automation model of functioning process was created on the basis of the cause-effect approach. This model allows to present synchronous communication between elements of these systems. The model can be used in aviation training centers, which provide such programs as a periodic ground training and a professional development of aviation staff.
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Kluev, V.V., Rezchikov, A.F., Bogomolov, A.S., Filimonyuk, LYu.: The conception of complex resource for research of «man – object – environment» systems’ safety. Test. Diagn. 8, 44–55 (2013)
Kluev, V.V., Rezchikov, A.F., Kushnikov, V.A., et al.: An analysis of critical situations caused by unfavorable concurrence of circumstances. Test. Diagn. 7, 12–16 (2014)
Sloane, N.J.A.: An encyclopedia of integer sequences. SIAM Rev. 38, 333–337 (1996)
Trahtman, A.N.: Modifying the upper bound on the length of minimal synchronizing word. In: Owe, O., Steffen, M., Telle, J.A. (eds.) FCT 2011. LNCS, vol. 6914, pp. 173–180. Springer, Heidelberg (2011). doi:10.1007/978-3-642-22953-4_15
Lapkovsky, R., Ivanov, A., Ivaschenko, V.: Cause-effect approach to traffic modeling on problem intervals of road network. Large Scale Syst. Control 35, 283–303 (2011)
Neymark, M.S., Tsesarskiy, L.G., Filimonyuk, L.Y.: The decision-making model for an entrance of airplanes into an airport’s responsibility zone. All-Russ. Sci.-Tech. J. “Polyot” (“Flight”) 3, 31–37 (2013)
Novozhilov, G.V., Rezchikov, A.F., Neymark, M.S., et al.: Human factor in aviation transport systems. All-Russ. Sci.-Tech. J. “Polyot” (“Flight”) 5, 3–10 (2013)
Novozhilov, G.V., Rezchikov, A.F., Neymark, M.S., et al.: Cause-and-effect approach to the analysis of aviation transport systems. All-Russ. Sci.-Tech. J. “Polyot” (“Flight”) 7, 3–8 (2011)
Speransky, D.V.: Generalized synchronization of linear sequential machines. Cybernetics 3, 17–25 (1998)
Tsukanov, M.A.: Coordination of units process as difficult structured of manufacture as an economic measure. Large Scale Syst. Control 3, 318–321 (2013)
Sharov, V.: Application of bayesian approach to update events’ probabilities in automated system of aviation accidents forecasting and prevention. Large Scale Syst. Control 43, 240–253 (2013)
Rosenblatt, D.: On the graphs and asymptotic forms of finite boolean relation matrices. Naval Res. Logistics Quart. 4, 151 (1957)
Gill, A.: Linear Sequential Circuits: Analysis, Synthesis, and Applications. McGraw-Hill, New York (1967)
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Rezchikov, A. et al. (2017). The Approach to Provide and Support the Aviation Transportation System Safety Based on Automation Models. In: Silhavy, R., Silhavy, P., Prokopova, Z., Senkerik, R., Kominkova Oplatkova, Z. (eds) Software Engineering Trends and Techniques in Intelligent Systems. CSOC 2017. Advances in Intelligent Systems and Computing, vol 575. Springer, Cham. https://doi.org/10.1007/978-3-319-57141-6_26
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DOI: https://doi.org/10.1007/978-3-319-57141-6_26
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