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Optimization of the regulated maintenance periodicity on military equipment products operated according to their technical condition

Mirnenko Volodymyr, Dyptan Valentyn, Pustovyi Serhii, Radko Oleg, Yablonskyi Petro

Journal of KONBiN

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2020

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Vol. 50, iss. 4

237--249

EN

The article is dedicated to the optimization problem of the regulated maintenance periodicity for military products operated according to their technical condition. The analytical method of optimization for the exponential law of the time distribution between failures and the numerical optimization method for the diffusion-monotonic law are taken into consideration. The search for the extreme value of the regulated maintenance periodicity for the diffusionmonotonic distribution law was conducted with the use of the numerical method applying Mathcad 15.0. The dependencies of both the technical utilization factor and its derivative on the regulated maintenance periodicity at certain values of the model parameters were obtained.

PL

W pracy podjęto problem optymalizacji okresowości obsługiwania planowego dla produktów wojskowych eksploatowanych według stanu technicznego. Rozważano analityczną metodę optymalizacji dla wykładniczego prawa rozkładu czasu między awariami oraz metodę numeryczną optymalizacji dla prawa dyfuzyjno-monotonicznego (za pomocą Mathcada 15.0). Uzyskano zależności zarówno współczynnika wykorzystania technicznego, jak i jego pochodnej od okresowości obsługiwania planowego przy określonych wartościach parametrów modelu.

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Mathematical model of military equipment products maintenance for the condition-based operation strategy taking into account type I errors

Mirnenko Volodymyr, Pustovyi Serhii, Radko Oleg, Yablonskyi Petro

Journal of KONBiN

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2020

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Vol. 50, iss. 1

269--281

EN

For military equipment products maintained according to the condition-based operation strategy with control of parameters a mathematical model is constructed using semi-Markov random process. The diffusion-monotonic distribution law which is inherent in mechanical type products is taken for the fault model. The model takes into account type I errors. The analytical dependence of the utilization factor on the parameters of the scale and shape of the diffusion-monotonic distribution, the of regulated maintenance periodicity, the duration of complete restoration of a sample of equipment, the reliability of its control, is established. Graphs of the dependence of the utilization factor on the given parameters of the model are shown.

PL

Model matematyczny wykorzystujący losowy proces semi-Markowa został opracowany dla wyrobów sprzętu wojskowego obsługiwanych zgodnie ze strategią eksploatacji według stanu z kontrolą parametrów. Dla modelu uszkodzenia przyjęto prawo podziału dyfuzyjno-monotonicznego właściwego dla wyrobów mechanicznych. Model uwzględnia błędy pierwszego rodzaju. Ustalono analityczną zależność współczynnika wykorzystania technicznego od parametrów skali i kształtu rozkładu dyfuzyjnomonotonicznego, okresowości przeprowadzenia obsługiwania planowego, czasu trwania pełnej regeneracji próbki sprzętu, niezawodności jego kontroli. Pokazano wykresy zależności współczynnika wykorzystania technicznego od danych parametrów modelu.

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Methodological Basis of Logistic Support of the Air Force of the Armed Forces of Ukraine

Mirnenko Volodymyr, Openko Pavlo, Tiurin Vitalij, Martyniuk Oleksii

Safety & Defense

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2019

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2

47--53

EN

This article proposes a unified theory of logistics for the Air Forces of the Armed Forces of Ukraine based on the existing theories of armament and the logistics of the Armed Forces, and on the general laws and established consistent patterns, trends, principles, forms and methods of the use of the logistics of the Air Forces of the Armed Forces of Ukraine. The objective function of the logistics system of the Air Forces of the Armed Forces of Ukraine is formulated to achieve compliance of the capabilities of this system with the predicted volume of logistics tasks. In order to implement this compliance, it is necessary to ensure the convergence of requirements and capabilities at all levels of logistics management. The assessment of the functioning of theAir Forces logistics system of the Armed Forces of Ukraine is proposed on the basis of the stated views on the logistics theory of the Air Forces of the Armed Forces of Ukraine by assessing the set of real capabilities of each subsystem that is a part of its structure and system as a whole. At the same time, the assessment of the quality of the logistic support of the military units (formations) of the Air Forces of the Armed Forces of Ukraine should be related to the level of implementation of the potential capabilities of the logistics system when solving problems of each subsystem at the various stages of combat training, unblocking and operational deployment, the preparation and conduct of operations (combat actions), restoration of combat capability of troops (forces).

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General Approach to Counter Unmanned Aerial Vehicles

Tiurin Vitalij, Martyniuk Oleksii, Mirnenko Volodymyr, Openko Pavlo

Safety & Defense

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2019

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1

6--12

EN

The following study is devoted to the problem of preventing offensive missions led with small Unmanned Aerial Vehicles (UAVs). The main goal of the paper is to familiarize the reader with a general methodology for counteracting offensive UAVs. In this paper, the authors describe counter UAV approach, which includes several stages, such as: the identification of threats, the development of prevention measures, active counteracting (including: detection, tracking, identification, evaluation, decision making and counteraction), evaluation and improvement of the anti-UAV counteraction system.In the recommendations, the authors give two non-exclusive practical approaches to countering hostile UAVs: the offensive counter UAV and the defensive counter UAV, which concern wide range of different strategies from “destroy as many UAVs as possible” to “protect all high value assets from UAVs threats”.