Methodical approach to the substantiation of the indicators of the anti-aircraft missile system (complex) fire power

Keywords: methodical approach, anti-aircraft missile system (system), firepower, search capabilities, firepower, fire resource, firepower indicators, mathematical modeling

Abstract

The results of the research published in the article will be useful for logistic support specialists who are involved in the creation (modernization) of the samples of weapons and military equipment. A methodical approach to substantiating the firepower requirements of a promising anti-aircraft missile system (system) is presented, which provides for the assessment of the components of firepower – search capabilities, firepower and fire resource, taking into account the intensity of the air attack, range and conditions of use of the complex (systems) for each type of goal. A list of indicators of firepower is given, namely, the average time of detection and recognition, the intensity of reconnaissance of targets, the density of the flow of missile launches (rate of fire), the preparation time of the first launch, the probability of hitting a target, and the average consumption of missiles per target. It is shown that the firepower indicators of a promising anti-aircraft missile system (system) at a given level of protection should be determined provided that it is necessary to defeat a selected group of air targets with a probability of not lower than a given level. The requirements for the firepower of a promising anti-aircraft missile system (system) can be substantiated using a complex of mathematical models that provide the opportunity to study scenarios of conflict-information interaction of a promising anti-aircraft missile system (system) and air targets in the form of a simulation machine experiment. It is shown that, based on the simulation results, the indicators of search capabilities, fire performance and fire resource of a promising anti-aircraft missile complex (system), as well as the mathematical expectation of the number of people hit by the whole when the ammunition load of anti-aircraft guided missiles installed on launchers are used, should be determined.

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Author Biographies

Pavlo Open’ko, The National Defence University of Ukraine named after Ivan Cherniakhovskyi

Ph.D. in Technical Science, Head of the Scientific-research Department of the Aviation and Air Defence Institute

Vadym Lukyanchuk, Ivan Kozhedub Kharkiv National Air Force University

Doctor of Technical Sciences, Senior Reseacher, Chief of Scientific-research Department of scientific center of Air Force

Ivan Nikolaev , Ivan Kozhedub Kharkiv National Air Force University

Ph.D. in Technical Science, Senior Reseacher, Leading Reseacher of the Scientific-research Department of scientific center of Air Force

Igor Dzeverin , Ivan Kozhedub Kharkiv National Air Force University

Ph.D. in Technical Science, Senior Reseacher, Chief of Scientific Center of Air Force of Ivan Kozhedub Kharkiv National Air Force University

Pavlo Drannyk, The National Defence University of Ukraine named after Ivan Cherniakhovskyi

Ph.D. in Military Sciences, Senior Researcher, Associate Professor, Department of Aircraft Missile Forces of the Aviation and Air Defence Institute

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Published
2020-08-15
How to Cite
Open’ko, P., Lukyanchuk, V., Nikolaev , I., Dzeverin , I., & Drannyk, P. (2020). Methodical approach to the substantiation of the indicators of the anti-aircraft missile system (complex) fire power. Journal of Scientific Papers ʽʽSocial Development and Security’’, 10(4), 12-22. https://doi.org/10.33445/sds.2020.10.4.2
Section
Articles

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