DOI: 
10.22389/0016-7126-2022-983-5-11-18
1 Klyushin E.B.
2 Kravchuk I.M.
Year: 
№: 
983
Pages: 
11-18

Moscow State University of Geodesy and Cartography (MIIGAiK)

1, 
2, 
Abstract:
The authors discuss theoretical matters inherent in modern algorithms for processing satellite measurements’ data. Using the simplest radio navigation system MPS (abbreviation for Mandelstam, Papaleksi, Schegolev), developed in the USSR in 1936 as an example, it was shown that the main drawback of existing algorithms is that they did not use the mathematical notation of simultaneous registration of phase cycles, and all researchers, without exception, note the importance of these acts. It is proved that the operation of resolving ambiguity is not theoretically justified. It is recommended to record the duration of the measurement session, and it is proved that this can serve as an additional source of information. Based on the studies, a simple, unified, and rigorous algorithm for calculating the coordinates of the points to be determined from the results of registering phase cycles at using the radio navigation system in the phase probe mode is recorded.
References: 
1.   Antonovich K.M. Ispol'zovanie sputnikovyh radionavigacionnyh sistem v geodezii: Monografiya. M.: Kartgeocentr, 2005, V 2-h tomah Vol. 1, 334 p.
2.   Antonovich K.M. Ispol'zovanie sputnikovyh radionavigacionnyh sistem v geodezii. M.: FGUP «Kartgeocentr», 2006, V 2-h tomah. Vol. 2, 359 p.
3.   Genike A.A., Pobedinskij G.G. Global'nye sputnikovye sistemy opredeleniya mestopolozheniya i ih primenenie v geodezii. Izd. 2-e, pererab. i dop.. M.: Kartgeocentr, 2004, 355 p.
4.   Global'naya sputnikovaya radionavigatsionnaya sistema GLONASS. Pod red. V. N. Kharisova i dr. Moskva: IPRZhR, 1998, 399 p.
5.   Klyushin E. B., Kravchuk I. M. Analiz algoritma obrabotki rezul'tatov sputnikovykh izmerenii fazovym metodom. Izvestia vuzov. Geodesy and Aerophotosurveying, 2019, Vol. 63, no. 4, pp. 75–84. DOI: 10.30533/0536-101X-2019-63-4-375-384.
6.   Klyushin E. B., Kravchuk I. M. Sputnikovaya navigatsionnaya sistema – unikal'nyi instrument dlya fundamental'nykh nauchnykh issledovanii. Izvestia vuzov. Geodesy and Aerophotosurveying, 2017, Vol. 61, no. 5, pp. 14–18.
7.   Kravchuk I.M., Pshenichnaya M.M. (2021) Scheme of an auxiliary geodetic network on the Moon. Geodezia i Kartografia, 82(5), pp. 10-14. (In Russian). DOI: 10.22389/0016-7126-2021-971-5-10-14.
8.   Krichevskii S.V. Lunar exploration: history, model, superglobal project and eco-friendly technologies. Aerospace sphere, 2019, no. 3, pp. 16–25.
9.   Povalyaev A. A., Veitsel' A. B., Mazepa R. B. Global'nye sputnikovye sistemy sinkhronizatsii i upravleniya dvizheniem v okolozemnom prostranstve. Moskva: Vuzovskaya kniga, 2012, 188 p.
10.   Reshetnev M. F. Razvitie sputnikovykh navigatsionnykh sistem. Informatsionnyi byulleten' NTTs “Internavigatsiya”, 1992, pp. 6–10.
11.   Ashby N. Relativistic Effects in the Global Positioning System. URL: clck.ru/geRgw (accessed: 20.03.2022).
12.   Mohinder S. Grewal, Lawrence R. Weill, Angus P. Andrews (2001) Global Positioning Systems, Inertial Navigation, and Integration. John Wiley & Sons, Inc., 409 p.
13.   Hofmann-Wellenhof B., Lichtenegger H., Collins J. (2001) Global Positioning System. Theory and practice. 5th, revised ed. Springer, Wienn, New York, 384 p.
14.   Leick A. (2004) GPS Satellite Surveying. 3rd ed. A Wiley and Sons, Inc, New York, 435 p.
15.   Seeber G. (2003) Satellite Geodesy. 2nd completely revised and extended. Walter de Gruyter, Berlin – New York, 612 p.
16.   Teunissen P. J. G., Kleusberg A. (1998) GPS for geodesy. Berlin: Springer. 655 p.
Citation:
Klyushin E.B., 
Kravchuk I.M., 
(2022) Theoretical aspects of the phase probe method. Geodesy and cartography = Geodezia i Kartografia, 83(5), pp. 11-18. (In Russian). DOI: 10.22389/0016-7126-2022-983-5-11-18
Publication History
Received: 06.07.2020
Accepted: 07.04.2022
Published: 20.06.2022

Content

2022 May DOI:
10.22389/0016-7126-2022-983-5

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