METHODOLOGY OF CONSTRUCTION OF TRANSPORT AND TECHNOLOGICAL SCHEMES OF DELIVERY OF SUPPORT MEANS FOR MAINTENANCE OF COMBAT AIRCRAFT AT THE AIRPORTS OF UKRAINE
DOI:
https://doi.org/10.33042/2522-1809-2022-6-173-183-188Keywords:
methodology, transport and technological scheme, means of support, combat aircraft, airportsAbstract
The article analyzed the existing methods of building technologies for the maintenance of civil and military aircraft and identified mathematical methods that can be used to study the prospects for the development of aircraft maintenance systems, which allowed to form the purpose of the study in this development. The chosen topic is quite relevant, because the formation of transport and technological schemes for the delivery of support for the maintenance of combat aircraft can increase the efficiency of resource use and reduce the time for training at Ukrainian airports in a conflict situation. One of the ways to reduce maintenance time is to determine the effective distribution of transport and technical means for the preparation of aircraft. It was established that in the scientific developments of foreign scientists, solutions were proposed related to the construction of transport and technological schemes for the delivery of support for the maintenance of various types of aircraft. Most of these solutions were aimed at using agent-based simulation models for application to the process of generating combat sorties of aircraft - this made it possible to process a large amount of data and generate management decisions in the transport service system. Also, most authors propose to take into account the conditions of uncertainty and time constraints when building a methodology to improve the efficiency of aircraft maintenance. An algorithm for the rational distribution of transport resources for aircraft preparation at Ukrainian airports has been developed, based on the results of simulation modeling of the aircraft maintenance process under different service conditions (time of day and climatic conditions that affect the time of aircraft maintenance and the time of movement of vehicles along transportation routes). On the basis of the developed algorithm of rational distribution of transport resources for aircraft preparation, the technology of aircraft maintenance at Ukrainian airports is proposed, which indicates the sequence of operations aimed at determining and comparing the normative values of the duration of maintenance of the corresponding aircraft with the calculated values and determining their rational number.
References
Hrúz, M., Pecho, P., Mariášová, T. & Bugaj, M.(2020). Innovative changes in maintenance strategies of ATO’s aircraft based on their operational status, Transportation Research Procedia, 51, 261-270.
Kála, M., Žember, M. & Lališ, A. (2020). Development of a tool for access worktime estimation in aircraft maintenance, Transportation Research Procedia, 51, 46-55.
Sheng, J. & Prescott, D. (2019). A coloured Petri net framework for modelling aircraft fleet maintenance, Reliability Engineering & System Safety, 189, 67-88.
Cui, R., Dong, X. & Lin, Y. (2019). Models for aircraft maintenance routing problem with consideration of remaining time and robustness, Computers & Industrial Engineering, 137, 106045
Tsakalerou, M., Nurmaganbetov, D. & Beltenov, N. (2022). Aircraft Maintenance 4.0 in an era of disruptions, Procedia Computer Science, 200, 121-131.
Prescott, D. & Andrews, J. (2010). Modelling the Use of Maintenance to Minimise Aircraft Service Disruption, IFAC Proceedings Volumes, 43(3), 44-49.
MacKenzie, A., Miller, J.O., Hill, R.R. & Chambal, S.P. (2012). Application of agent based modelling to aircraft maintenance manning and sortie generation, Simulation Modelling Practice and Theory, 20(1), 89-98.
Nagornyy, Y., Kalinichenko, O. & Pavlenko, O. (2021). Model of operation of combat aircraft ground transportation service systems. Municipal economy of cities, 166, 211-216.
Lee, J. & Mitici, M. (2022). Multi-objective design of aircraft maintenance using Gaussian process learning and adaptive sampling, Reliability Engineering & System Safety, 218(A), 108123
Al-Thani, N.A., Ben Ahmed, M. & Haouari, M. (2016). A model and optimization-based heuristic for the operational aircraft maintenance routing problem, Transportation Research Part C: Emerging Technologies, 72, 29-44.
Munari, P. & Alvarez, A. (2019). Aircraft routing for on-demand air transportation with service upgrade and maintenance events: Compact model and case study, Journal of Air Transport Management, 75, 75-84
O. Kalinichenko, O. Pavlenko, I. Soldatenko (2022). Operational planning of the process of transport maintenance of combat aircraft at ukrainian airfields. Municipal economy of cities, 171, 173-178.
Lee, J. & Mitici, M. (2020). An integrated assessment of safety and efficiency of aircraft maintenance strategies using agent-based modelling and stochastic Petri nets, Reliability Engineering & System Safety, 202, 107052.
Pavlenko, O., Velykodnyi, D., Lavrentieva, O., & Filatov, S. (2020). The procedures of logistic transport systems simulation into the petri nets environment, CEUR Workshop Proceedings, 2732, 854-868.
Zaporozhets, A. (2021). Development of the theoretical foundations of ground transportation technology at Ukrainian airports. Part 3. Development of technology for determining the optimal distribution of transport resources for the preparation of an aircraft at the airports of Ukraine. Retrieved from https://dspace.khadi.kharkov.ua/dspace/handle/123456789/4882
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