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The combined use of GPS and GLONASS satellite systems is a main technology for the development of the fundamental geodetic network in Russia and for crust movement studies along the North Eurasian tectonic plate. All permanent stations of the state fundamental geodetic network will be provided with the two frequency GPS and GLONASS receivers. A collocation of these stations with the existing Russian sites of the international GNSS (Global Navigation Satellite System) network is foreseen. The GLONASS state program foresees to come to 18 satellites in constellation in 2007-2008, and full operation capability (24 satellites) will be reached by 2009. The second generation of satellites: GLONASS-M have the L2 civil signal, extended lifetime and improved clock stability. GLONASS-K satellites are expected by 2009 with the L3 civil signal and Synthetic Aperture Radar function. A combination of GPS and GLONASS will benefit the scientific geodynamic research and practical users, especially in the urban, mountain and near polar areas. Results of the experimental GLONASS data analysis performed. Comparison of mean values of coordinates from only GLONASS solution, obtained at the Institute of Astronomy (Moscow) with the use of GIPSY-OASIS2 software, with the mean values from the GPS PPP solution for the IGS sites showed that differences are mainly within a few cm, provided that incomplete configuration of GLONASS satellites have been observed.
Słowa kluczowe
Rocznik
Tom
Strony
113--120
Opis fizyczny
Bibliogr. 11 poz., rys., tab.
Twórcy
autor
- Institute of Astronomy, Russian Academy of Sciences,48, Pyatnitskaya str.119017,Moscow, RF
autor
- Central Research Institute of the Federal Space Agency, 4, Pionerskaya str.141070, Korolev (Moscow), RF.
autor
- Central Research Institute of the Federal Space Agency, 4, Pionerskaya str.141070, Korolev (Moscow), RF.
autor
- Institute of Astronomy, Russian Academy of Sciences,48, Pyatnitskaya str.119017,Moscow, RF
Bibliografia
- Altamimi,Z., Sillard, P., Boucher, C. 2002. ITRF2000, A new release of the International Terrestrial Reference Frame for Earth science application, J. Geophys. Res. 107(B10), 2214.
- Demianov G.V. and. Tatevian S.K, 2000.Integrated Geodynamical Network in Russia. (Scientific objectives and Realization). Phys.Chem.Earth (A), 25, №12, 819-822.
- Demianov G.V., Kuzin S.P., Tatevian S.K., 2005.On the unification of the European and Asian vertical datum. Proceedings of the APSG Symposium ”Geodynamics and Natural Hazards”. 15-17 June 2005, Hong-Kong, 227-233.
- Gatinsky Yu.G., Rundquist D.V., Tyupkin Yu.S., 2005. Block structures and kinematics of Eastern and Central Asia from GPS data. Geotectonics, 39(5), 333-348.
- Jefferson,D.C., Bar-Sever Y.E., Heflin M.B., et al. 1999. JPL IGS Analysis Center Report, International GPS Service for Geodynamics 1998 Technical reports, JPL, Pasadena, 89-97.
- Kuang, D., Bar-Server Y.E., Bertiger W., et al. 2001. GPS-assisted GLONASS orbit determination, Journal of Geodesy, 75, № 11,. 569-574.
- Kuzin, S., Revnivykh,S., Tatevian, S. 2007 :Glonass as a key element of the Russian positioning service. Advances in Space Research. 39(10) 1531-1538.
- Plag H.-P., Johansson J.M. Bergstrand S. 2004 Geodetic Galileo: A test case for high accuracy applications of Galileo in the frames of the Galileo System test bed. Geoph. Res. Abstracts, 6, 06253.
- Zarraoa N., Mai W., Sardon E. et al. 1998. Preliminary evaluation of the Russian GLONASS system as a potential geodetic tool, J.Geod., 72(6), 356-363.
- Webb, F., Zumberge, J. (eds), 1995 An introduction to GIPSY-OASIS II, Report JPLM D-11088, Jet Propulsion Laboratory, Pasadena.
- Zumberge, J.F., Heflin M.B., Jefferson, D.C., et al. 1997 Precise point positioning for the efficient and robust analysis of GPS data from large networks, J.Geophys.Res., 102(B3), 5005-5016.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
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