V. Soboliev scite author profile

V. Soboliev

2Publications

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Central Scientific Research Institute of Armament and Military Equipment of the Armed Forces of Ukraine

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Modern Approaches to the Organization of a Reliable Jam–resistant and Secured Satellite Communication Channel With Unmanned Aerial Vehicles

et al. 2021

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At the present stage of development of unmanned aircraft systems work continues at a rapid pace to further improve their capabilities in the direction of more effective combat and special tasks. This is especially noticeable in two key areas: increasing the range and flight duration; reducing the physical size of the unmanned aerial vehicles. The combination of increasing flight duration and decreasing design characteristics significantly affects the requirements for unmanned aircraft system communication equipment and the development of a beyond line of sight satellite communication channel, which is currently considered as the main channel for transmitting intelligence, telemetry information in real time. Under existent warfighting conditions, the development of communication lines on the principle of a beyond line of sight with the use of ground or airborne relay stations, or through the introduction of additional ground control stations is virtually unjustified, due to the high dynamics of operational conditions and time constraints for decision making. In this context, the unmanned aerial vehicles' satellite communication channels are subject to strict requirements to ensure the combat missions are carried out successfully and safely. The article examines current approaches to the implementation of satellite communication channels with unmanned aerial vehicles in the context of the requirements for both on–board equipment and directly to the development of a satellite communication channel. Recommendations are given for the basic requirements for the organization of satellite duplex communication beyond line–of–sight with unmanned aerial vehicles based on geostationary (medium-altitude) high throughput satellites in the Ka frequency range.

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A Universal Transforming Platform for Evacuating Wounded Using Ground Unmanned Remotely Controlled Complexes

et al. 2022

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The paper describes the invention of a universal transforming platform for evacuating wounded using ground unmanned remotely controlled complexes and explains a method for evacuating the wounded. A universal transforming platform for evacuating wounded using ground unmanned remotely controlled complexes contains a shield, which is a two-layer structure, the upper layer of which is made of foamed polymer, and the lower layer is made of aluminum alloy long cleats (hollow inside), two electromechanical devices for fastening (releasing) wire ropes, a platform transportation wire rope, platform fastening cables in a travelling position on a remote-controlled complex, victim fixation belts. The method of hidden evacuation of the wounded consists in using a universal transforming platform that can be attached to all ground unmanned remotely controlled complexes. The victim who is not able to move independently from the forward edge of battle area is evacuated without exposing danger to personnel. This method allows to save the lives of both the wounded and medical personnel, who are still carrying out the evacuation of the wounded at the risk of their own lives.

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V. Soboliev

Modern Approaches to the Organization of a Reliable Jam–resistant and Secured Satellite Communication Channel With Unmanned Aerial Vehicles

A Universal Transforming Platform for Evacuating Wounded Using Ground Unmanned Remotely Controlled Complexes

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