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The direct topographical correction in gravimetric geoid determination by the Stokes–Helmert method

Nahavandchi, H.

Abstract. The direct topographical correction is composed of both local effects and long-wavelength contributions. This implies that the classical integral formula for determining the direct effect may have some numerical problems in representing these different signals. On the other hand, a representation by a set of harmonic coefficients of the topography to, say, degree and order 360 will omit significant short-wavelength signals. A new formula is derived by combining the classical formula and a set of spherical harmonics. Finally, the results of this solution are compared with the Moritz topographical correction in a test area.

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The direct topographical correction in gravimetric geoid determination by the Stokes–Helmert method

Nahavandchi, H.

Abstract. The direct topographical correction is composed of both local effects and long-wavelength contributions. This implies that the classical integral formula for determining the direct effect may have some numerical problems in representing these different signals. On the other hand, a representation by a set of harmonic coefficients of the topography to, say, degree and order 360 will omit significant short-wavelength signals. A new formula is derived by combining the classical formula and a set of spherical harmonics. Finally, the results of this solution are compared with the Moritz topographical correction in a test area.

The direct topographical correction in gravimetric geoid determination by the Stokes–Helmert method

Nahavandchi, H.

Abstract. The direct topographical correction is composed of both local effects and long-wavelength contributions. This implies that the classical integral formula for determining the direct effect may have some numerical problems in representing these different signals. On the other hand, a representation by a set of harmonic coefficients of the topography to, say, degree and order 360 will omit significant short-wavelength signals. A new formula is derived by combining the classical formula and a set of spherical harmonics. Finally, the results of this solution are compared with the Moritz topographical correction in a test area.

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Titel:

The direct topographical correction in gravimetric geoid determination by the Stokes–Helmert method

Beteiligte:

Nahavandchi, H. (Autor:in)

Erschienen in:

Journal of Geodesy ; 74

Erscheinungsdatum:

2000

ISSN:

DOI:

https://doi.org/10.1007/s001900000110

Medientyp:

Aufsatz (Zeitschrift)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Geodäsie , Geodynamik

Klassifikation:

BKL: 38.73 Geodäsie

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