N.P. Kolesnikov1, A.O. Slavyansky2, A.V. Selin3, A.V. Azarov4

1-3 JSC “CNIRTI named after academician A.I. Berg” (Moscow, Russia)

4 «MIREA - Russian Technological University» (Moscow, Russia)

4 andrey_91@bk.ru

Currently, there is an active development of radio engineering monitoring systems, which causes increased interest in the use of unmanned aerial vehicles to solve various problems of electronic warfare.  This, in turn, leads to ensuring strict requirements for on -board technical devices in terms of mass and dimensions of the technique of reception and processing of signals. Within the framework of this work, an analysis of the current state of the studied scientific and technical problem was carried out, as well as the promising areas of development of the on-board target equipment of radio engineering monitoring P, L and S frequency ranges used on the basis of unmanned aerial vehicles.

Kolesnikov N.P., Slavyanskiy A.O., Selin A.V., Azarov A.V. The use of program-defined radio systems in the task of radio engineering monitoring using an unmanned aerial vehicle. Radiotekhnika. 2025. V. 89. № 10. P. 80−85. DOI: https://doi.org/10.18127/j00338486-202510-09 (In Russian)

1. Zhigulin V.A., Peshkov I.V., Fortunova N.A. Realizacija programmno-opredeljaemogo radiopriemnika na baze program-miruemyh logicheskih integral'nyh shem. Ogarev-onlajn. 2022. № 13(82) (in Russian).
2. Il'in E.M., Klimov A.Je., Pashhin N.S. Passivnye lokacionnye sistemy. Perspektivy i reshenija. Vestnik SibGUTI. 2015. № 2(30). S. 7-20 (in Russian).
3. Sadekov D. Zynq ultrascale+ - Adaptiruemaja intellektual'naja platforma dlja promyshlennogo Interneta veshhej. Jelektronika: Nauka, tehnologija, biznes. 2020. № 4(195). C. 64-69 (in Russian).
4. Azarov A.V., Karavaev M.N., Rozhkov S.S., Slavjanskij A.O., Smolka K.A. Sintez malogabaritnogo fazovogo pelengator aviacionnogo bazirovanija. Trudy MAI. 2022. № 123 (in Russian).
5. Denisov V.P., Dubinin D.V. Fazovye radiopelengatory. Tomsk: Izd-vo TUSUR. 2002. 252 s. (in Russian).