B.I. Volkov1, S.S. Belousov2, A.V. Antonov3

1–3 Military Training and Research Center of the Air Force Prof. N.E. Zhukovsky and Y.A. Gagarin (Voronezh, Russia)

1 volkovbron@yandex.ru, 2 Belousovtel@ yandex.ru, 3 antonovav@ yandex.ru

The existing approaches to the deployment of special-purpose aviation formation (AF) communications networks are largely outdated. The concept of their construction is based on the principles developed based on the experience of using troops (forces) in military conflicts of the past experience of the use of troops (forces) in military conflicts of the past, where the main element of the communication system is still control centers. The main element of the communication system is still the communication nodes of control centers.

The purpose of the article is to briefly analyze factors and the current state of the tactical-level military communications system (hereinafter referred to as the communications system) to outline the directions for building special-purpose communications networks (hereinafter referred to as the communication system) to outline the directions of building special-purpose communication networks of AF. AF special-purpose communications networks, taking into account the experience of using domestic communications equipment in modern military conflicts to outline directions for building special-purpose AF communications networks, taking into account the experience of using domestic communications equipment in modern military conflicts, capable of providing users with full access to information resources on the battlefield.

The result of the work is the development of unified approaches to the construction of a modern AF communication system, in which, first of all, it is necessary to replace analog hardware (stations of mobile communications), first of all, it is necessary to replace analog hardware (stations) of mobile communication nodes with digital ones with the prospect of their further application in conditions of further use in the future. Analog hardware (stations of mobile communication nodes) to digital ones with the prospect of their further application in conditions of highly maneuverable military operations.

It should have the properties of convergence with dynamic self-organization of the deployed communication networks, their guaranteed security, with the use of artificial intelligence technology, allowing for the integration of communication services (means) for provision of information to subscribers of aviation control points aviation control centers and resistant to all types of external influences.

The practical application of the developed approaches consists in further development of mobile communication nodes of AF, in which the option of their application as a part of a control point (CP) of modular construction is defined. In this case, with the predominant role of ad hoc access communication networks, the AF communication node can be represented as a set of interconnected and organized infocommunication networks interconnected and organized info-communication modules. This capability should not only increase the ability of more users to access the shared telecommunications resource being developed in the Territory common telecommunication resource in the territory, but also to significantly improve the sustainable functioning of the AF communications system as a whole, which is one of the most one of the most urgent problematic issues in modern military conflicts.

Volkov B.I., Belousov S.S., Antonov A.V. Actual directions of building special purpose communication networks aviation formations. Achievements of modern radioelectronics. 2025. V. 79. № 2. P. 64–71. DOI: https://doi.org/10.18127/ j20700784-202502-08
[in Russian]

1. Strategiya natsional'noy bezopasnosti Rossiyskoy Federatsii. Utverzhdena ukazom Prezidenta Rossiyskoy Federatsii ot 2 iyulya 2021 goda № 400. URL: http://www.kremlin.ru/acts/bank/47046/page/1 [in Russian]
2. Ivanov V.G., Luk'yanchik V.N. Ob evolyutsii teorii i praktiki postroeniya sushchestvuyushchikh sistem svyazi voennogo naznacheniya na osnove sozdaniya mul'tikonvergentnoy sistemy svyazi gruppirovki voysk (sil) na teatre voennykh deystviy. Voennaya mysl'. 2021. № 1. S. 66–78. [in Russian]
3. Gustov A.A. Metodicheskiy podkhod obosnovaniya trebovaniy k uzlam svyazi punktov upravleniya. Voennaya Mysl'. 2020. № 3. [in Russian]
4. Ermishyan A.G. Teoreticheskie osnovy postroeniya sistem voennoy svyazi v ob"edineniyakh i soedineniyakh: uchebnik. Chast' 1. Metodologicheskie osnovy postroeniya organizatsionno-tekhnicheskikh sistem voennoy svyazi. SPb: VAS. 2005. [in Russian]
5. Slovar' voysk svyazi Vooruzhennykh Sil Rossiyskoy Federatsii. M.: VI. 2008. [in Russian]
6. Zharov D.I. Analiz faktorov, vliyayushchikh na postroenie sistemy svyazi v operatsiyakh koalitsionnykh gruppirovok voysk (sil). Voennaya mysl'. 2022. № 9. S. 46–51. [in Russian]
7. Dronov S.V., Vasil'ev G.A., Kiryushin A.N. Osobennosti taktiki aviatsii v sovremennykh boevykh deystviyakh i puti sover-shenstvovaniya. Voennaya mysl'. 2024. № 1. S. 16–21. [in Russian]
8. Vorob'ev I.G., Romanov V.M. Razvitie form i sposobov postroeniya sistemy svyazi takticheskogo zvena upravleniya. Voennaya mysl'. 2022. № 6. S. 62–71. [in Russian]
9. Ivanutkin A.G. Integratsiya svyazi, RTO i avtomatizatsii upravleniya aviatsiey. Vestnik Akademii voennykh nauk. 2015. № 4. [in Russian]
10. Tishkov V.V., Ivanov V.G., Luk'yanchik V.N. Obosnovanie oblika postroeniya perspektivnykh kompleksov i sredstv svyazi na osnove opyta organizatsii svyazi pri provedenii spetsial'noy voennoy operatsii. Voennaya mysl'. 2023. № 9. S. 60–72. [in Russian]
11. Shkol'nikov S.K., Ivanov V.G., Luk'yanchik V.N. Osobennosti razvertyvaniya sistemy svyazi obshchevoyskovogo soedineniya na osnove tekhnologiy, realizuemykh v radioreleynykh stantsiyakh R-419MR. Voennaya mysl'. 2024. № 5. S. 62–74. [in Russian]