Author: P. Novák
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  • 1 Research Institute of Geodesy, Topography and Cartography CZ-250 66 Zdiby 98 Czech Republic
  • | 2 University of Western Bohemia Department of Mathematics Univerzitní 8 CZ-306 14 Plzeň Czech Republic
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Determination of the gravimetric geoid is based on inversion of observed values of gravity into the disturbing gravity potential, i.e., the unknown potential is sought from discrete values of its vertical gradient. This transformation is often solved using boundary-value problems of the potential theory defined in terms of the Laplace differential equation and corresponding boundary conditions. However, this apparatus requires the potential function to be harmonic everywhere outside the boundary on which the unknown potential is solved for. For geoid determination, the boundary represents the geoid that is usually approximated for derivation of the solution by a geocentric sphere or reference ellipsoid. Since there are topographical and atmospheric masses outside the geoid, the potential function is not harmonic everywhere outside the geoid and the so-called reduction of the gravity potential and its functionals must be applied. This manuscript investigates the generalized method of Helmert’s condensation, namely its numerical implications for the standard procedure of geoid determination. An optimum location of the condensation layer is investigated from the point of relative smoothness of the gravity field and numerical difficulties with gravity inversion. The test area in the Canadian Rocky Mountains with a highly variable gravity field and topography is used for numerical investigations. Numerical results indicate that the condensation layer buried approximately 20–30 km inside the geoid gives the best results in terms of the gravity field smoothness as well as the complexity of gravity inversion. However, larger values of the primary indirect effect on the geoid for this depth of the condensed masses seem to overcome these numerical advantages.

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Acta Geodaetica et Geophysica
Language English
Size B5
Year of
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Founder Magyar Tudományos Akadémia
H-1051 Budapest, Hungary, Széchenyi István tér 9.
Publisher Akadémiai Kiadó Springer
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ISSN 2213-5812 (Print)
ISSN 2213-5820 (Online)