The Application of GPS Technique in Determining the Earth’s Potential Field

Abstract

Two approaches to determining the Earth’s external potential field by using GPS technique are proposed. The first one is that the relation between the geopotential difference and the light signal’s frequency shift, between two separated points, is applied. The second one is that the spherical harmonic expansion series and a new technique dealing with the “downward continuation” problem are applied. Given the boundary value provided by GPS “geopotential frequency shift” on the Earth’s surface, the Earth’s external field could be determined based on the “fictitious compress recovery” method. Given the boundary value derived by on-board GPS technique on the satellite surface, the Earth’s external field could be determined by using a new technique for solving the “downward continuation” problem, which is also based on the “fictitious compress recovery” method. The main idea of the “fictitious compress recovery” is that an iterative procedure of “compress ” and “recovery” between the given boundary (the Earth’s surface or the satellite surface) and the surface of Bjerhammar sphere is executed and a fictitious field is created, which coincides with the real field in the domain outside the Earth. Simulation tests support the new approach.

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W. Shen and J. Ning, "The Application of GPS Technique in Determining the Earth’s Potential Field," Positioning, Vol. 1 No. 9, 2005, pp. -.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Bjerhammar A (1964): A new theory of geodetic gravity. Royal Institute of Technology, Geodesy Division, Stockholm.
[2] Brumberg V.A.; Groten E. (2002): On determination of heights by using terrestrial clocks and GPS signals. J. Geod. 76: 49-54.
[3] Gerlach Ch.; F?ldvary L.; Svehla D.; Gruber Th.; Wermuth M.; Sneeuw N.; Frommknecht B.; Oberndorfer H.; Peters Th.; Rothacher M.; Rummel R.; Steigenberger P. (2003): A CHAMP-only gravity field model from kinematic orbits using the energy integral. Geophysical Research Letters 30(20), 2037.
[4] Heiskanen W.A.; Moritz H. (1967): Physical Geodesy. Freeman and Company, San Francisco.
[5] HMC Project (2005): http://cfa-www.harvard.edu/hmc/
[6] Katila T.; Riski Q. (1981): Measurement of the interaction between electromagnetic radiation and gravitational field using 67Zn M?ssbauer spectroscopy. Physics Letters, 83A: 51-54.
[7] Kellogg O.D. (1929): Foundation of potential theory. Frederick Ungar Publishing Company, New York.
[8] Li Jin (2005): Simulation tests on the fictitious compress recovery method for gravitational potential. Bachelor Degree Thesis, Wuhan University, Wuhan, China.
[9] Moritz H. (1978): On the convergence of the spherical harmonic expansion of the geopotential at the Earth’s surface. Bollettino di Geodesia e Scienze Affini, 37: 363-381.
[10] Pound R.V.; Snider J.L. (1965): Effect of gravity on gamma radiation. Physical Review, 140(3B): 788-803.
[11] Rummel R.; Sansó F.; van Gelderen M.; Brovelli M.; Koop R.; Miggliaccio F.; Schrama E.; Sacerdote F. (1993): Spherical harmonic analysis of satellite gradiometry. Netherlands Geodetic Commission, Publications on Geodesy, New Series No. 39
[12] Shen W.B. (1995): A general expression of the Earth’s gravitational potential’s series expansion. Bollettino di Geodesia e Scienze Affini, 54: 361-372.
[13] Shen W.B. (1998): Relativistic physical geodesy. Habilitation Thesis, Graz Technical University, Graz, Austria.
[14] Shen W.B. (2004): The fictitious compress recovery method for gravitational potential. Geomatics and Information Science of Wuhan University 29(8): 720-724
[15] Shen W.B.; Chao D.B.; Jin B.R. (1993): On the relativistic geoid. Bollettino di Geodesia e Scienze Affini, 52: 207-216.
[16] Shen W.B.; Li Jin (2005): Simulation tests on the fictitious compress recovery method and the fictitious downward continuation. Chinese Journal of Geophysics, (submitted).
[17] Shen W.B.; Ning J.Sh. (2004): A proposal on the determination of the Earth’s potential field. Presented at the 18th International Meeting of CEOS, November 16-18, 2004, Beijing, China.
[18] Shen W.B.; Tao B.Z. (2004): The accuracy analysis of the gravity model based on the fictitious compress recovery. Presented at the 2nd AOGS General Assembly, July 6-9, 2004, Singapore
[19] Shen W.B.; Wang Zh.T.; Chao D.B. (2005): An approach for determining the Earth's external gravity field by using satellite gravity data and a simulation experiment test. Geomatics and Information Science of Wuhan University, (accepted).
[20] Shen W.B.; Yan J.G.; Chao D.B. (2005): The application of the fictitious compress recovery approach in “ downward continuation ” and simulation experiment tests. Acta Geodaetica et Cartographica Sinica, (submitted).
[21] Shen W.B.; Zhong Q.J.; Han M.T.; Ning J.Sh. (2004): The fictitious compress recovery principle and its applications in geophysics. Annual of the Chinese Geophysical Society 2004. Xi’an Map Press, Xi’an, China, pp. 20-21.
[22] Sj?berg L. (1980): On the convergence problem for the spherical harmonic expansion of the geopo- tential at the surface of the Earth. Bollettino di Geodesia e Scienze Affini, 39: 261-271.
[23] Vessot R.F.C.; Levine M.W.; Mattison E.M.; Blomberg E.L.; Hoffman T.E.; Nystrom G.U.; Farrel B.F.; Decher R.; Eby P.B.; Baugher C.R.; Watts J.W.; Teuber D.L.; Wills F.D. (1980): Test of relativistic gravitation with a space-borne hydrogen maser. Physical Review Letters, 45: 2081-2084.
[24] Visser P.N.A.M.; Sneeuw N.; Gerlach C. (2003): Energy integral method for gravity field determination from satellite orbit coordinates. J. of Geod. 77: 207-216.
[25] Weinberg S. (1972): Gravitation and cosmology. John Wiley & Sons, New York.

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