Abstract
The article introduces the concept of system action, defines its indicator, and obtains equations that allow us to determine and calculate the probability of achieving the purpose of a spatially distributed system using the indicator of this system. Using the obtained mathematical relations, a material support system is analyzed, its action is determined, and the probability of achieving the purpose of its operation is calculated.
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I. S. Romanchenko, V. O. Shuienkin, O. I. Khazanovych, and I. Yu. Marko, Theoretical Bases of Analysis, Modeling and Synthesis of the Logistics System as a Spatially Distributed System [in Ukrainian], TsNDI ZS Ukrayiny, Kyiv (2013).
E. S. Ventsel’ and L. A. Ovcharov, Probability Theory and Its Engineering Applications [in Russian], Nauka, Moscow (1988).
M. G. Kendall and P. A. P. Moran, Geometric Probabilities, Charles Griffin Co. Ltd, London (1963).
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Translated from Kibernetyka ta Systemnyi Analiz, No. 1, January–February, 2022, pp. 137–144.
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Khazanovych, O.I., Movchan, O.M. & Kharchenko, V.P. Determining the Probability of Achieving the Purpose of a Spatially Distributed System Using its Action Indicator. Cybern Syst Anal 58, 118–125 (2022). https://doi.org/10.1007/s10559-022-00441-6
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DOI: https://doi.org/10.1007/s10559-022-00441-6