The article focuses on solving the problem of assessing the survivability of a fire control system of an anti-aircraft sub-unit (anti-aircraft unit). The ways of solving this problem are shown by the use of certain methods, by which it is possible to carry out the analysis of the factors that influence the survivability of the fire control system of an anti-aircraft sub-unit (anti-aircraft unit). Assessment of the survivability of the control system is carried out on the basis of a model that characterizes the survivability of the system for a certain period of time. It is advisable to choose the time for which the survivability of the system is estimated within the average time spent by the elements of the fire control system of the anti-aircraft unit (unit) at their positions. As an indicator of survivability, the probability of non-defeat of elements of the enemy fire control system over the adopted time period is accepted. The adopted indicator is characterized by a number of particular indicators: the probability of detection (the probability of direct detection by enemy aircraft in a given area) of the control system elements; the probability of absenteeism of control elements from under the attack of the enemy; the probability of defeat of the elements of the enemy assets management system In turn, private indicators take into account the enemy’s ability to detect and strike at elements of the fire control system of an anti-aircraft sub-unit (anti-aircraft unit), as well as the possible impact of organizational and technical measures aimed at improving camouflage, creating false positions, and engineering support to reduce the likelihood of detection and defeat of elements of a fire control system of an anti-aircraft sub-unit (anti-aircraft unit). The proposed methodology for assessing the survivability of a fire control system takes into account the dynamics of its operation, the impact of possible measures to increase survivability at its level, takes into account different options for striking the enemy and allows a comparative analysis of proposals to ensure the required level of survivability of the system in the headquarters (military authorities) planning and conducting combat operations.
According to the experience of hostilities, including during the JFO (ATO), today much attention is paid by military experts to the development and improvement of optical and optoelectronic devices. This is due to the continuous improvement and development of new generation weapons systems that have improved tactical and technical characteristics, reduces the time spent by objects in the area of detection and damage, reduces the visibility of objects, increases their protection from interference and countermeasures, changes their tactics. The main advantages of optoelectronic devices are: the secrecy of their use, in contrast to radar and radio equipment, they do not require additional systems of protection against interference; relative simplicity of design, operation and small dimensions; low energy consumption; ecological purity. The current state of threats to Ukraine's sovereignty and territorial integrity, first of all the ongoing aggression of the Russian Federation, requires the introduction of necessary ways to counter them, improving approaches to the formation of military-technical policy, taking into account the urgent need to update existing weapons and military (special) equipment. There is a need to create electron-optical transducers or matrix devices of other types that work in the visible and infrared ranges, for night vision devices, and opto-electronic systems for detection (registration) of laser radiation of rangefinders, control systems for homing projectiles, missiles in the optical range spectrum. The paper describes the areas of improvement of optoelectronic means of surveillance, detection and aiming in order to increase the effectiveness of combat employment of armored weapons. The relevance of the study lies in the need to introduce fundamentally new concepts for the integration of optical and optoelectronic devices.
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