350 rub
Journal Radioengineering №6 for 2023 г.
Article in number:
Characteristic calculations of antennas for communication and retransmission placed on aircraft and helicopter unmanned aerial vehicles
Type of article: scientific article
DOI: https://doi.org/10.18127/j00338486-202306-13
UDC: 621.396.67
Authors:

A.L. Buzov1, M.A. Buzova2, Yu.I. Kolchugin3, K.V. Kotkov4

1-4 JSC «SIB RS» (Samara Russia)

Abstract:

The issues of increasing the communication range when organizing data transfer between two remote sites are especially important and very relevant. An increase in the communication range can be achieved by increasing the height of the antennas. One of the effective technical solutions that allow placing antennas and radio stations at high altitude in the required place is the use of modern unmanned aerial vehicles (UAV).

Target. Calculations and studies of the characteristics of antennas placed on UAV of various types.

The results of calculations of the energy and spatial characteristics of three types of antennas installed on UAV of various types are obtained: asymmetric whip antenna; a low-profile antenna consisting of three PIFA emitters; an annular antenna array consisting of 6 asymmetric Uda-Yagi antennas. It is shown that each of the solutions has its own advantages and disadvantages and its own scope.

Based on the obtained results of calculating the characteristics of antennas, the developers of the corresponding communication systems can make a reasonable choice of the types of antennas used, depending on the requirements for the systems as a whole.

Pages: 100-108
For citation

Buzov A.L., Buzova M.A., Kolchugin Yu.I., Kotkov K.V. Characteristic calculations of antennas for communication and retransmission placed on aircraft and helicopter unmanned aerial vehicles. Radiotekhnika. 2023. V. 87. № 6. P. 100−108. DOI: https://doi.org/ 10.18127/j00338486-202306-13 (In Russian)

References
  1. Special'naja radiosvjaz'. Razvitie i modernizacija oborudovanija i ob’ektov: monografija. Pod red. A.L. Buzova, S.A. Bukashkina. M.: Radiotehnika. 2017. 448 s. (in Russian).
  2. Buzov A.L. Antennye sistemy gorodskih i linejnyh radiocentrov podvizhnoj radiosvjazi. Novye podhody i reshenija. Monografija. M.: Radiotehnika. 2020. 192 s. (in Russian).
  3. Vychislitel'nye metody v jelektrodinamike. Pod red. R. Mitry. Per s angl. Pod red. Je.L. Burshtejna. M.: Mir. 1977. 487 s. (in Russian).
  4. Buzova M.A., Kljuev D.S., Minkin M.A., Neshheret A.M., Sokolova Ju.V. Metody jelektrodinamicheskogo analiza antenn na osnove integral'nyh uravnenij: Ucheb. posobie. Samara: IUNL PGUTI. 2019. 96 s. (in Russian).
  5. Patent RU 2715353 C1 (RF), MPK H01Q 19/30 (2006.01). Bortovaja antenna dlja bespilotnogo letatel'nogo apparata. Andropov A.V., Kanaev K.A., Kolmakov I.A., Popov O.V., Smirnov P.L.; opubl. 26.02.2020, Bjul. № 6. (in Russian).
  6. Kotkov K.V., Kopylov D.A. Antennas for increasing the range of radio communication with portable radio stations, optimized taking into account temperature dependences and technological tolerances. Radiotekhnika. 2022. V. 86. No. 6. P. 61-67. DOI: https://doi.org/10.18127/j00338486-202206-09 (in Russian).
Date of receipt: 10.05.2023
Approved after review: 12.05.2023
Accepted for publication: 26.05.2023