The article describes one of the ways to establish radio communication on short waves, which is actively used in practice. When establishing such a connection, it is necessary to take into account the parameters of the ionosphere, which is subject to various external influences. Therefore, in order to establish a reliable communication channel of this kind, it is necessary to use models predicting the parameters of the ionosphere. The author of the article describes the methods of constructing such models and analyzes one of the most frequently used models of the ionosphere, which is based on passive radiosonding data. Using methods of statistical data processing, ways to improve the parameters of such an ionosphere model are proposed.

statistical data processing; ionosphere model; short wave radio communication.

Cherniy F.B. [Propagation of Radio Waves – Rasprostranenie radiovoln]. Soviet Radio, Moscow, 1972. (in Russian)

Barabashov B.G., Maltceva O.A. The Possibilities of Describing the Ionosphere in Real Time and Forecasting it. [News of Higher Educational Institutions. Noth Kavkaz Region. Series: Natural Sciences. – Izvestia VUZov. Severo-Kavkazskiy region. Seria: Estestvennye nauki ], 2009, no. 2, pp. 33–39. (in Russian)

Aksenov O.Yu., Kozlov S.I., Lyakhov A.N., Trekin V.V., Perunov Yu.M., Yakubovsky S.V. Analyzing Existing Applied Models of the Ionosphere for Calculating Radio Wave Propagation and Possibility of Their Use for Radar Systems. I. Classification of Applied Models and the Main Requirements for Radar Applications. Solar-Terrestrial Physics, 2020, vol. 6, no. 1. pp. 69–76. DOI: 10.12737/stp-61202008

Krasheninnikov I.V. Model IRI in the Problem of Estimating the Energy Characteristics of the Wave Field in Ionospheric Radio Waves Propagation. Geliogeofizicheskie issledovaniya, 2018, no. 17, pp. 1–6. (in Russian)

Krasheninnikov I.V. Radio Sounding of the Artificially Disturbed by Vertical Powerful Radio Emision Large-Scale Ionospheric Irregularity. Electromagnetic and Plasma Processes from the Bowels of the Sun to the Bowels of the Earth – Elektromagnitnye i plazmennye processy ot nedr Solntca do nedr Zemli], Anniversary Collection of Works IZMIRAN-75. Moscow, 2015, pp. 129–138. (in Russian)

Krasheninnikov I. V., Leshchenko L. N. Inaccuracy in Estimating the F2 Layer Peak Height by Automatic Systems for Processing Ionograms of Vertical Radio Sounding of the Ionosphere. [Propagation of Radio Waves – Rasprostranenie radiovoln], Work Collection of XXVII All-Russian Open Scientific Conference. Kaliningrad, 2021, pp. 415–420. (in Russian)

Krasheninnikov I.V., Pavlova N.M., Sitnov Y.S. IRI Model in the Problem of Predicting Ionospheric Radio-Wave Propagation Under Conditions of High Solar Activity. Geomagnetism and Aeronomy, 2017, vol. 57, no. 6, pp. 719–726. DOI: 10.1134/S0016793217060056

Nikolaeva V.D., Rybakov M.V., Kotikov A.L., Koshelevsky V.K. IRI-2012 Model Adaptability Estimation for Automated Processing of Vertical Sounding Ionograms [Scientific and Technical Bulletin of Information Technologies, Mechanics and Optics – Nauchno-tehnicheskiy vestnik infiormatsionnyh thenologiy, mehaniki i optiki], 2014, no. 1 (89), pp. 82–86. (in Russian)

Kupriyanov A.O., Tikhonov V.V., Morozov D.A., Perminov A.Y. Operational Monitoring of the Parameters of the Ionosphere in the Local Area Using the Results of Multifrequency GNSS-Measurements. [News of Higher Educational Institutions. Geodesy and Aerial Photography – Izvestiya VUZov. Geodezia i aerofotos’emka], 2018, vol. 62, no. 6, pp. 616–623. DOI: 10.30533/0536-101X-2018-62-6-616-623 (in Russian)

Bel’gibaev R.R. [A Complex for Assessing the State of the Ionospheric Line and Quality Indicators of Narrow-Band SW Modems Based on Passive Sensing – Kompleks dlya otsenki sostoyaniya ionosfernoy linii i pokazateley kachestva modemov uzkopolosnoy kv svyazi na osnove passivnogo zondirovaniya]. PhD (Techn) Theses, Yoshkar-Ola, 2017. (in Russian)

Mitin O.V., Sagadeeva M.A., Zagrebina S.A. Investigation of the Applicability of the Deep Convolutional Network Apparatus for Predicting Time Series of Fast-Flowing Energy-Intensive Processes of the Planet Earth. [South Ural Youth School of Mathematical Modeling – Yuzhno-Ural’skaya molodezhnaya shkola po matematicheskomu modelirovaniyu], Abstract Collection of IV All-Russian Scientific and Practical Conference. Publish Center of SUSU, Chelyabinsk, 2021, pp. 123–129. (in Russian)

Sagadeeva M.A., Mitin O.V. Construction of Observations Based on Data Distorted by Interference of Various Types. Journal of Computational and Engineering Mathematics, 2021, vol. 8, no. 4, pp. 9–16. DOI: 10.14529/jcem210402

Mitin O.V., Sagadeeva M.A., Zagrebina S.A. Research into the Possibility of Applying Real-Time Local Data to Refining the Ionosphere Empirical Modelling Findings. [Control in sea systems (CSS-2022) – Upravlenie v morskih sistemah (UMS-2022)], Collection of Works of 15-th Multi-Conference to Control Problems. Saint-Petersburg, 2022, pp. 11–19. (in Russian)