In the current context of warfighting electronic warfare is crucial for both sides of the conflict. Donetsk and Luhansk regions have become a kind of springboard for testing and application of multifunctional electronic warfare (EW) systems and platforms. The urgency of creating multifunctional EW systems lies in the need to solve the problem of protection of troops, control points, armament and military equipment from UAV air reconnaissance, protection from weapons, as well as disorganization of enemy‟s command and control by jamming its radioelectronic means. The development and passing into service of modern highly effective multifunctional EW systems requires continuous monitoring of the current state of their development in the Armed Forces of advanced countries. Developers from around the world present multifunctional EW systems annualy. The newest means of EW of the Russian Federation are considered and their comparative analysis is carried out. Conclusions are made on the possibility of interdiction of their work in areas of operations. The directions of operational efficiency improvement of the Ukrainian EW systems are offered. The analysis of trends in the development of EW and the latest command and control systems of the world's leading countries indicates the need to review traditional approaches to EW in the armed struggle of nowdays and the future. Therefore, the problem of bringing the state and level of development of EW to the requirements of the future wars is acute for the Armed Forces of Ukraine, taking into account the asymmetric and advanced nature of EW technology development in the world. The urgency of the research lies in acquaintance with modern achievements and directions for the development of EW systems used by the enemy.
У статті розглядається необхідність впровадження у систему технічного обслуговування літальних апаратів автоматизованого інформаційно-вимірювального комплексу для проведення оперативного контролю технічного стану консольно закріплених конструкцій планера літального апарату – крила та елементів хвостового оперення на предмет виявлення експлуатаційних пошкоджень у їх силових елементах, що недоступні для візуального огляду – закриті обшивкою. Виявлення експлуатаційних пошкоджень крила і елементів хвостового оперення пропонується проводити за допомогою методу контролю частоти власних коливань.
The article investigates the effectiveness of using the “AUDS” system to counter unmanned aerial vehicles by summarizing research, testing and analysis of the current state of development of unmanned aerial vehicles and means of radio-electronic combat against them. The object of the study is the anti-UAV defense system “AUDS” (Anti-UAV Defense System), produced by the ECS company (Great Britain), which came as material and technical assistance to Ukraine from partner countries. In the course of Russian’s armed aggression against Ukraine, the widespread use of commercially available small UAVs, as well as UAVs of the barrage type, requires the protection of critical infrastructure, important facilities, and military units from their impact. The experience of conducting combat operations in modern wars has shown that the use of expensive air defense equipment against small and medium-sized UAVs is not always appropriate. Therefore, it is the radio electronic suppression (REP) systems that are able to effectively solve the task of countering the specified types of UAVs. The article contains recommendations for improving the “AUDS” system to increase the effectiveness of detection and radio electronic suppression of modern and promising unmanned aerial vehicles, including those produced by the Islamic Republic of Iran.
Protecting from the action of radio of hindrances on the elements of zenithal rocket complex of shorter-range is one of important problems, that requires modern approach for her decision. Presently, influence of active hindrances is certain yet not enough on possibilities of armament on the defeat of air aims. In the article the analysis of influence of hindrances of different closeness is conducted on the station of accompaniment of aims of fighting machine of zenithal rocket complex shorter-range. The partial model of determination of index is offered hindrance of stability of the station of accompaniment of aim of zenithal rocket complex of shorter-range. The brought partial model over allows an analytical method to conduct the evaluation of values of conditional hit of model aim probabilities under various conditions. Mathematical calculations are conducted for: amplification of aerial of accompaniment of aim of fighting machine and aerials factors hindrance of producer; powers of hindrances on the entrance of accompaniment of aim of fighting machine; to the maximum sensitiveness of accompaniment of aim of fighting machine and relations hindrance/noise in the radio-location channel of accompaniment of aim; standard deviation of error of aiming of rocket depending on distance to the point of meeting of rocket with an aim in the zone of defeat taking into account influence of hindrances on the radio-location channel of accompaniment of aim of fighting machine; probabilities of passing of rocket in the «tube» of the set radius and conditional hit of aim probability at firing by one rocket; coefficient of зпомеха stability of accompaniment of aim of fighting machine; to conditional hit of aim probability hindrance of producer at firing by two rockets. On the accepted entry informative parameters and technical descriptions of accompaniment of aim of fighting machine certainly her maximum sensitiveness and relation hindrance/noise in this radio-location channel. On results mathematical calculations (mathematical design) corresponding charts that over is brought are got. From charts it is possible to define high efficiency of firing rockets on a model (air) aim.
У статті представлені методи і інструменти візуального уявлення перспективних науково-технологічних напрямів розвитку озброєння та військової техніки шляхом побудови дорожніх карт, які можна використовувати при формуванні перспективних науково-технологічних напрямів щодо розвитку оборонно-промислового комплексу (ОПК), а також при довгостроковому прогнозуванні та стратегічному плануванні щодо створення науково-технічного заділу для удосконалення і розвитку озброєння, військової і спеціальної техніки. Наведені приклади і показані переваги дорожнього картування для управління науково-технологічним розвитком ОПК.
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