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Abstract

The article is devoted to the development of a method for increasing the efficiency of communication channels of unmanned aerial vehicles (UAVs) in the conditions of electronic warfare (EW). The author analyses the threats that may be caused by the use of electronic warfare against autonomous UAVs. A review of some technologies that can be used to create original algorithms for countering electronic warfare and increasing the autonomy of UAVs on the battlefield is carried out. The structure of modern digital communication systems is considered. The requirements of unmanned aerial vehicle manufacturers for onboard electronic equipment are analyzed, and the choice of the hardware platform of the target radio system is justified. The main idea and novelty of the proposed method are highlighted. The creation of a model of a cognitive radio channel for UAVs is considered step by step. The main steps of modelling the spectral activity of electronic warfare equipment are proposed. The main criteria for choosing a free spectral range are determined. The type of neural network for use in the target cognitive radio system is substantiated. The idea of applying adaptive coding in UAV communication channels using multicomponent turbo codes in combination with neural networks, which are simultaneously used for cognitive radio, has been further developed.
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Authors and Affiliations

Serhii Semendiai
1
Yuliіa Tkach
1
Mykhailo Shelest
1
Oleksandr Korchenko
2
Ruslana Ziubina
3
Olga Veselska
3

  1. Chernihiv Polytechnic NationalUniversity, Chernihiv, Ukraine
  2. Department of Information Technology Security of National Aviation University, Kyiv, Ukraine
  3. Department of Computer Science andAutomatics of the University of Bielsko-Biala, Bielsko-Biala, Poland
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Abstract

In this work, vacuum hot pressed Ni-Mn-Sn-In Heusler alloys with different concentration of In (0, 2 and 4 at.%), were investigated. The magneto-structural behaviour and microstructure dependencies on chemical composition and on heat treatment were examined. It was found that the martensite start transformation temperature increases with growing In content and to a lesser extent with increasing temperature of heat treatment. The high energy X-ray synchrotron radiation results, demonstrated that both chemical composition as well as temperature of heat treatment slightly modified the crystal structures of the studied alloys. Microstructural investigation performed by transmission electron microscopy confirmed chemical composition and crystal structure changes in the alloys.

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Authors and Affiliations

W. Maziarz
A. Wojcik
R. Chulist
M.J. Szczerba
M. Kowalczyk
P. Czaja
E. Cesari
J. Dutkiewicz

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