Reliability and Maintainability Requirements for Mobility Means of Surface-to-Air Missile Systems
DOI:
https://doi.org/10.3849/aimt.01402Keywords:
maintainability requirements, mobility means,, reliability requirements, surface-to-air missile systemAbstract
The article solves the problem of complex substantiation of reliability and maintainability requirements for mobility means of surface-to-air missile (SAM) systems considering hierarchical structure of mentioned systems and appropriate characteristics of their mobility means, minimum configuration of SAM system means for air defense operation and a number of tactical characteristics of operation area. The quantitative characteristics of effectiveness of SAM system mobility means are measured by the coefficient of effectiveness sustainment which is the ratio of initial effect considering reliability and maintainability of mobility means to its value in case of faultless mobility means. The developed mathematical models, which are proposed for further use as a program product, are designed for defining the limit values of such reliability measures as mean range between failures and mean recovery time of combat and technical facilities of SAM system corresponding to given values of coefficient of effectiveness sustainment.
References
BOORD, W.J. and HOFFMAN, J.B. Air and Missile Defense Systems Engineering. Boca Raton: CRC Press, 2016. 271 p. ISBN 978-1-4398-0670-5.
KOVTUNENKO, A.P., ZUBAREV, V.V., LANETSKIY, B.N. and ZVEREV, A.A. Mathematical Modeling in Problems of Research of Reliability of a Technical Systems (In Russian). Kyiv: Knizhkove vidavnitstvo NAU, 2006. 236 p.
ADMP-01:2014, Guidance for Developing Dependability Requirements – Edition A Version 1.
ADMP-02:2014, Guidance for Dependability in-Servise – Edition A Version 1.
GADASIN, V.A. Estimation of the Effectiveness of Hierarchical Systems with Equal Objects with Due Regard for Reliability (in Russian). Izvestiya Akademii Nauk SSSR. Tekhnicheskaya Kibernetika, 1976, no. 6, p. 108-113.
MARTIN P.L. Electronic Failure Analysis Handbook. New York: McGraw-Hill, 1999. 766 p. ISBN 978-0-07-162634-7.
АSH, R.B. Basic Probability Theory. New York: Dover Publications, 2008. 352 p. ISBN 978-0-486-46628-6.
TOBIAS, P.A. and TRINDADE, D.C. Applied Reliability. 3rd ed. Boca Raton: CRC Press, 2011. 600 p. ISBN 978-1-58-488466-8.
OHRING, M. and KASPRZAK, L. Reliability and Failure of Electronic Devices and Materials. 2nd ed. Cambridge: Academic Press, 2014. 758 p. ISBN 978-0-12-088574-9.
Military Directives, Handbooks and Standards Related to Reliability [online] [viewed 2019-10-21]. Available from: http://www.weibull.com/knowledge/milhdbk.htm
De ALMEIDA, A.T., CAVALCANTE, C.A.V., ALENCAR, M.H., FERREIRA R.J.P., De ALMEIDA-FILHO, A.T. and GARCEZ, T.V. Multicriteria and Multiobjective Models for Risk, Reliability and Maintenance Decision Analysis. New York: Springer, 2015. 395 p. ISBN 978-3-319-17968-1.
KOBZEV, V.V., OPENKO, P.V. and FOMENKO, D.V. Substantiation of a method of distribution of operational observations on samples at application of a method of group consideration of arguments for forecasting of reliability of radio electronic means of antiaircraft missile complexes (in Ukrainian). Modern information technologies in the field of security and defense, 2012, no. 2(14), p. 35-37. - Available from: http://nbuv.gov.ua/UJRN/sitsbo_2012_2_10.
PARKER, S.R. Combat Vehicle Reliability Assessment Simulation Model (CVRASM). In Proceedings of the 23rd Conference on Winter Simulation. Washington: IEEE, 1991, p. 491-498. https://doi.org/10.1109/WSC.1991.185651.
NAIL, M., FENTON, N., FOREY, S. and HARRIS, R. Using Bayesian Belief Networks to Predict the Reliability of Military Vehicles. Computing & Control Engineering Journal, 2001, vol. 12, no. 1, p. 11-20. https://doi.org/10.1049/cce:20010103.
STRUTT, J.E. and HALL, P.L. Global Vehicle Reliability Prediction and Optimization Techniques. Hoboken: Wiley, 2003. 140 p. ISBN 978-1-86-058368-1.
OPEN’KO, P.V., DRANNYK, P.A., KOBZEV, V.V., BROVKO, M.B. and ZALEVSKY, G.S. Substantiation of Reliability Requirements for Mobility Means of Surface-To-Air Missile Systems. Advances in Military Technology, 2017, vol. 12, no. 1, p. 91-99. https://doi.org/10.3849/aimt.01122.
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