MANAGEMENT ALGORITHM FOR THE COMPREHENSIVE SYSTEM OF TESTING SAMPLES OF ANTI-AIRCRAFT MISSILE SYSTEMS

Abstract

Combat capability characterizes the ability of a military unit or unit to perform its assigned tasks. The combat capability of the modern army is based on the degree of staffing with modern types of weapons and military equipment, their technical level and combat capabilities. The main requirement for weapons samples is high efficiency in the performance of combat missions. Quality control of weapons samples requires the performance of the necessary number of comparative studies, including when conducting different levels of testing. Testing is the main way of confirming the given tactical and technical characteristics of weapons samples and their constituent parts. The main way to assess the characteristics of the intended use of weapons is to conduct the necessary number of field experiments. It is not always possible to conduct live experiments due to various reasons of an objective nature in the conditions of hostilities, or large material costs or the impossibility of ensuring the safety of conducting experimental work. An analysis of the introduction features of a complex system of testing samples of the anti-aircraft missile complex which involves replacing part of the live tests with its simulation using semi-live or mathematical modeling stands has been carried out. A control algorithm is proposed that implements an integrated test system of samples of anti-aircraft missile systems and provides for the following procedures: collection and processing of the requirements of the tactical and technical (technical) task for the development of a weapons prototype, analysis of requirements for the tactical and technical characteristics of the sample; summarizing the tactical and technical characteristics of the prototype of the complex which are subject to verification and confirmation by conducting tests; determination of the tactical and technical characteristics of the intended purpose of the complex, the verification of which requires conducting full- scale experiments; determination of the tactical and technical characteristics of the intended purpose of the complex which can be verified by conducting semi-realistic, mathematical and computer simulation modeling; analysis of complete coverage of all significant tactical and technical characteristics of the complex; formation of a decision regarding the organization of tests of an anti-aircraft missile complex sample; analysis of the effectiveness of the tests and correction of the solution.