Calculation Method Modification of Spare Parts Quan-tity to Restore Operability of Weapon Systems

Authors

  • Pavlo Open’ko Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi 0000-0001-7777-5101
  • V.I. Mirnenko Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi
  • V.V. Tуurin Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi
  • M.Yu. Myronіuk Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi
  • О.M.  Doska Air Force Scientific Center, Ivan Kozhedub Kharkiv National Air Force University
  • A.M. Bulay Air Force Scientific Center, Ivan Kozhedub Kharkiv National Air Force University

Abstract

The article proposes a methodical approach to calculating the number of spare parts for weapon systems (WS) combat damage elimination and operability restoration based on criteria of minimization of spare parts cost, meeting the requirements of the spare parts, tools, supplies and materials, as well as timeliness of damaged WSs repair. The main points of the methodological approach (mathematical formalization of the task, basic calculation ratios, stages and order of calculation of spare parts stocks) are represented with a simplified scheme of the calculation of spare parts to ensure WS combat damage elimination and operability restoration. Probability of sufficiency and developed mathematical model for its calculation are used as a sufficiency indicator of spare parts to ensure WS combat damage elimination and operability restoration.

Author Biographies

Pavlo Open’ko, Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi

Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi, Kyiv, Ukraine
Candidate of Technical Sciences (Doctor of Philosophy).

V.I. Mirnenko, Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi

Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi, Kyiv, Ukraine

V.V. Tуurin, Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi

Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi, Kyiv, Ukraine

M.Yu. Myronіuk, Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi

Institute of Aviation and Air Defense, National Defense University of Ukraine named after Ivan Cherniakhovskyi, Kyiv, Ukraine

О.M.  Doska, Air Force Scientific Center, Ivan Kozhedub Kharkiv National Air Force University

Air Force Scientific Center, Ivan Kozhedub Kharkiv National Air Force University, Kharkiv, Ukraine

A.M. Bulay, Air Force Scientific Center, Ivan Kozhedub Kharkiv National Air Force University

Air Force Scientific Center, Ivan Kozhedub Kharkiv National Air Force University, Kharkiv, Ukraine

References

HU, Q., S. CHAKHAR, S. SIRAJ and A. LABIB. Spare Parts Classification in In-dustrial Manufacturing Using the Dominance-based Rough Set Approach. Euro-pean Journal of Operational Research, 2017, 262(3), pp. 1136-1163. DOI 10.1016/j.ejor.2017.04.040.

YIN, Z., F.L.Y.-F. GUO and M.-S. LAI. Calculation of Quantities of Spare Parts and the Estimation of Availability in the Repaired as Old Models. In: Proceedings of the 2011 International Conference on Swarm Intelligence (ICSI), 2011, Part II, LNCS 6729, pp. 419-426. DOI 10.1007/978-3-642-21524-7_51.

PAN, G., Q. LUO, X. LI, Y. WANG and C. HUANG. Model of Spare Parts Optimi-zation Based on GA for Equipment. In: Proceedings of the 2018 3rd International Conference on Modelling, Simulation and Applied Mathematics. Shanghai: Atlan-tis Press, 2018, pp. 44-47. ISBN 978-9-46-252566-5.

KUTANOGLU, E. and M. MAHAJAN. An Inventory Sharing and Allocation Method for a Multi-Location Service Parts Logistics Network with Time-Based Service Levels. European Journal of Operational Research, 2009, 194(3), pp. 728-742. DOI 10.1016/j.ejor.2007.12.032.

ALMEIDA, A.T. de, C.A.V. CAVALCANTE, M.H. ALENCAR, R.J.P. FERREIRA, A.T. de ALMEIDA-FILHO and T.V. GARCEZ. Multicriteria and Multiobjective Models for Risk, Reliability and Maintenance Decision Analysis. New York: Springer, 2015. ISBN 978-3-31-917968-1

MUCKSTADT, J.A. Analysis and Algorithms for Service Parts Supply Chains. New York: Springer, 2005. ISBN 978-0-38-722715-3.

RUSTENBURG, J.W., G.J. van HOUTUM and W.H.M. ZIJM. Spare Parts Man-agement for Technical Systems: Resupply of Spare Parts under Limited Budgets. IIE Transactions, 2000, 32(10), pp. 1013-1026. DOI 10.1080/07408170008967458.

GU, J., G. ZHANG and K.W. LI. Efficient Aircraft Spare Parts Inventory Manage-ment under Demand Uncertainty. Journal of Air Transport Management, 2015, 42, pp. 101-109. DOI 10.1016/j.jairtraman.2014.09.006.

BOYARNYKOV, V.B. Restoration of Military and Combat Equipment of Anti-Aircraft Missile Troops Country's Air Defence (in Russian). Minsk: MVZRU PVO, 1972.

АSH, R.B. Basic Probability Theory. New York: Dover Publications, 2008. ISBN 978-0-48-646628-6.

Downloads

Published

2021-05-31

How to Cite

Open’ko, P., Mirnenko, V. ., Tуurin V., Myronіuk M.,  Doska О., & Bulay, A. (2021). Calculation Method Modification of Spare Parts Quan-tity to Restore Operability of Weapon Systems. Advances in Military Technology, 16(1), 121–132. Retrieved from http://aimt.unob.cz/index.php/aimt/article/view/1479

Issue

Section

Research Paper