ВИМОГИ ДО СУЧАСНИХ ОПТИКО-ЕЛЕКТРОННИХ СИСТЕМ БЕРЕГОВИХ САМОХІДНИХ АРТИЛЕРІЙСЬКИХ КОМПЛЕКСІВ ПРИ ЇХ АВТОНОМНОМУ БОЙОВОМУ ЗАСТОСУВАННІ ДЛЯ УРАЖЕННЯ НАДВОДНИХ ЦІЛЕЙ

Abstract

The article analyzes the application of simulation systems in the military sphere, the contribution of domestic and foreign scientists to its development. The problem of application of simulation systems in the development of promising models of artillery weapons as complex systems, taking into account the factors of the combat situation, is determined. The variant of hitting the object (target) with a mortar battery, modeling and experiments with different indicators of rate of fire and maneuverability are given. The method of simulation modeling using JCATS identifies the required technical characteristics of maneuverability and rate of fire of promising mortar systems, which must be taken into account in the design. Using regression analysis, the results of the forecast of the required rate of fire and maneuverability of promising mortar complexes are shown, which will provide the required effectiveness of hitting single targets in modern maneuverable combat operations with a probability of defeat of not less than 0.9. The simulation results are summarized in the table. The requirements that must be met when creating self-propelled mortar systems and technical solutions that can provide the required rate of fire. The ways of using the program of unified simulation of conflicts and tactics of combat operations in the IM JCATS system in scientific researches at formation of tactical and technical requirements and characteristics of samples of armament at development of new and modernization of existing are offered. Keywords: simulation modeling; tactical and technical requirements; tactical and technical characteristics; artillery armament; computer technology; simulation technology; combat effectiveness of the artillery system; combat effectiveness indicator; the probability of hitting the target; maneuverability; rate of fire.