Use of satellite and TV radiation for study of atmospheric processes
1Kryvenko, ОV, 2Laush, АG, 1Lutsenko, VІ, 1Popov, DО, 1Popov, ІV, 3Sobolyak, ОV 1O.Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Science of Ukraine, Kharkiv, Ukraine 2Co. Ltd. «Navis-Ukraine», Smila 3Kharkiv Morozov Machine Building Design Bureau, Kharkiv, Ukraine |
Kosm. nauka tehnol. 2015, 21 ;(3):83–90 |
https://doi.org/10.15407/knit2015.03.083 |
Publication Language: Ukrainian |
Abstract: The results of experimental studies of the effect of solar radiation on television centers signals in beyond-the-horizon track and signals of global navigation satellite systems (GNSS) are presented. New methods and techniques of estimating refractive properties of the atmosphere and determining areas of precipitation are offered. The method for determining the refractive properties of the troposphere using angles of arrival of VHF and GNSS signals is worked out. The proposed approach will permit to develop methods of remote sensing techniques, and it can be used in developing the system of global monitoring of the Earth and its atmosphere |
Keywords: atmospheric refraction, dangerous meteorological phenomena, global navigation satellite systems, remote sensing, troposphere, VHF signals |
1. Kravchenko V. F., Kravchenko O. V., Lutsenko V. I. Restoration of environment information parameters with using of atomic and WA-systems of functions. Review. Part I. Application of the theory of semi-Markov fields and finite functions for the description of non-stationary processes. Physical Bases of Instrumentation. 3(2), 3—17 (2014) [in Russian].
2. Kutuza B. G., Kravchenko V. F., Lucenko V. I. et al. Use of the GNSS (GPS, GLONASS) radiation for Remote zondyrovanyya okruzhayuschey environment. Current problems in remote sensing of the Earth from space. (Moscow, 2014) Retrieved from: http://smiswww.iki.rssi.ru/d33_conf/thesisshow.aspx?page=91&thesis=4381.[in Russian].
3. Laush A.G., Lutsenko V.I., Lutsenko I.V. et al. Use of global navigation satellite systems radiation to solve problems of radar and remote sensing. 24th Intern. Crimean conf. “Microwave & Telecommunication Technology” (CriMiCo’2014). P. 1149—1150 (Sevastopol, 2014) [in Russian].
4. Laush A. G., Lucenko V. I., Lucenko I. V. et al. Lighting of the air and surface surveillance using emissions of Global Navigation Satellite Systems. 5-j Mezhdunar. Radiojelektronnyj forum «Prikladnaja radiojelektronika. Sostojanie i perspektivy razvitija» (MRF-2014), Mezhdunar. konf. «Integrirovannye informacionnye radiojelektronnye sistemy i tehnologii»: sb. nauch. tr. T. 1, 45—48 (Kharkiv, 2014) [in Russian].
5. Levchenko S. A., Lutsenko V.I., Lutsenko I.V. et al. Monitoring of the atmosphere and the ocean surface using satellite receivers Systems Global GPS navigation, GLONASS. Science and technology as a Basis of Modernization for Future Sustainable Development (SSF-2014): Proc. Int. Humboldt conf. P. 26—30 (Minsk, 2014) [in Russian].
6. Lutsenko V.I., Lutsenko I.V., Popov D.O. Effect of meteorological formations for change in consumers coordinates in GNSS. 24th Intern. Crimean conf. “Microwave & Telecommunication Technology” (CriMiCo’2014). P. 1125—1126 (Sevastopol, 2014) [in Russian].
7. Lutsenko V.I., Lutsenko I.V., Popov D.O. Diagnosis of the atmosphere and the underlying surface using radiation global navigation satellite systems. 14th Ukrainian Conference on Space Research: Abstracts, P.33 (Uzhgorod, 2014) [in Russian].
8. Lutsenko V.I., Lutsenko I.V., Popov D.O. Detection of weather patterns with the help of global positioning systems. 5-j Mezhdunar. Radiojelektronnyj forum «Prikladnaja radiojelektronika. Sostojanie i perspektivy razvitija» (MRF-2014), Mezhdunar. konf. «Integrirovannye informacionnye radiojelektronnye sistemy i tehnologii»: sb. nauch. tr. 1, 207—210 (Kharkiv, 2014) [in Russian].
9. Kravchenko V. F., Lutsenko V. I., Lutsenko I. V., et al. Statistical model of the refractive index of the troposphere. Univ. J. Phys. and Appl. (UJPA). 2 (4), 206—212 (2014).
10. Lutsenko V. I., Lutsenko I. V., Popov D. O., et al. Simulation of the mapping function for calculation of troposheric zenith delay. Telecommunications and radio engineering. 73(5), P. 413—424 (2014).