Investigation of gps signal amplitude fluctuations depending on meteorological factors when passing through a turbulent atmosphere at low elevation angles over the land
Manuscript submitted 06.09.2020
Radiofiz. elektron. 2021, 26(1): 20-27
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1. Rocken, C., Kuo, Y.H., Schreiner, W., Hunt, D., Sokolovskiy, S.V., 2000. COSMIC System Description. Terrestrial, Atmospheric and Oceanic Science, 11(1), pp. 21-52. DOI: https://doi.org/10.3319/TAO.2000.11.1.21(COSMIC) 2. Anderson, K.D., 1982. Inference of refractivity profiles by satellite-to-ground RF measurements. Radio Science, 17(3), pp. 653-663. DOI: https://doi.org/10.1029/RS017i003p00653 3. Armand, N.A., Andrianov, V.A., Smirnov, V.M., 1987. Troposphere refractive index profile recovery from measurements of the artificial Earth satellite signals frequency. Radiotekhnica i electronica, 32(4), pp. 673-680 (in Russian). 4. Lowry, A.R., Rocken, C., Sokolovskiy, S.V., Anderson, K.D., 2002. Vertical profiling of atmospheric refractivity from ground-based GPS. Radio Science, 37(3), pp. 1-19. DOI: https://doi.org/10.1029/2000RS002565 5. Bogaturov, A.N., Gaykovich, K.P., Gurvich, A.S., Ivanov, V.K., Kashkarov, S.S., Kryvonozhkin, S.N., Smirnov, A.S., Freylikher, V.D., Shevtsov, B.M., 1990. On the possibility of determining the reflecting layers in the troposphere over the sea from variations in the satellite radio signals level. Dokl AN SSSR, 315(4), pp. 830-834 (in Russian). 6. Zamarajev, V.B., Kabanov, V.A., Morgun, G.M., Sinitsky, V.B., 2006. Variations of the Tropospheric Refraction over the Sea. Simultaneous Measurements at Ground-to-Ground and Satellite-to-Ground Radio Paths. Telecommunications and Radio Engineering, 65(8), pp. 685-699. DOI: https://doi.org/10.1615/TelecomRadEng.v65.i8.10 7. Sinitsky, V.B., 2011. On the Possibility of Sea State Diagnostics Using the Radio Signals from GPS Satellites at Law Angles. Telecommunications and Radio Engineering, 70(19), pp. 1751-1761. DOI: https://doi.org/10.1615/TelecomRadEng.v70.i19.40 8. Sinitsky, V.B., 2011. The Effect of Horizon Line upon Tropospheric Refraction Measurements Taken During Beyond-the-Horizon GPS Radiosetting over Dry Land. Telecommunications and Radio Engineering, 70(3), pp. 189-200. DOI: https://doi.org/10.1615/TelecomRadEng.v70.i3.10 9. Lutsenko, V.I., Popov, D.O., Lutsenko, I.V., 2016. Research of the underlying surface by radiation of global navigation satellite system. Radiofiz. Elektron., 7(21)(1), pp. 31-39 (in Russian). DOI: https://doi.org/10.15407/rej2016.01.031 10. Vinnichenko, N.I., Pinus, N.Z., Shmetter, S.M., Shoor, G.N., 1976. Turbulence in a free atmosphere. Leningrad, Gidrometeoizdat Publ. (in Russian). 11. Dutton, M.J.O., 1980. Probability forecasting of clear air turbulence based on numerical model output. Meteorol. Mag., Vol.109, N7. P. 293-310. 12. Belov, Ye.N., Voitovich, O.A., Rudnev, G.A., Tkachova, T.O., Khlopov, G.I., Khomenko, S.I., 2012. Radar Sounding Of Small Scale Turbulence In Boundary Layer Of Atmosphere. Radiofiz. Elektron., 3(17)(1), pp. 30-35 (in Russian).