EVALUATION OF TERRAIN CORRECTIONS THROUGH FFT AND CLASSICAL INTEGRATION IN TWO SELECTED AREAS OF THE ANDES AND THEIR IMPACT ON GEOIDAL HEIGHTS

Authors

  • MARIA EUGENIA GOMEZ Universidad Nacional de La Plata (UNLP) – La Plata - Argentina
  • DIEGO RUBEN BAGU
  • DANIEL DEL COGLIANO
  • RAUL A. PERDOMO

DOI:

https://doi.org/10.5380/bcg.v19i3.33357

Keywords:

Terrain Corrections, Classical Integration, Tierra del Fuego, Mendoza.

Abstract

As part of the regional geoid modeling, terrain corrections were computed in Tierra
del Fuego island and in the west side of the province of Mendoza. The first place is
located in the southernmost region of Argentina and Mendoza is in the center-west
of this country. Considering both study areas, elevations range from 0 m to 6500 m.
The classical integration of prism contribution and the 2-D FFT technique were used
to estimate terrain corrections. This study aims at discussing the results obtained by
both approaches and their applicability considering their advantages and
disadvantages according to the regions under investigation. The analysis allowed us
to conclude that classical integration has a better performance than FFT methods,
especially in the highest regions where terrain corrections can be overestimated in
more than 20 mGals by FFT. Both techniques described show similar results in flat
areas. Finally, the effect that the error of terrain corrections computation has on
geoidal heights is also discussed and numerically tested. It is proved that an error in
gravity anomalies of 20 mGals may cause up to 2 m geoid height error.

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Published

2013-09-11

How to Cite

GOMEZ, M. E., BAGU, D. R., DEL COGLIANO, D., & PERDOMO, R. A. (2013). EVALUATION OF TERRAIN CORRECTIONS THROUGH FFT AND CLASSICAL INTEGRATION IN TWO SELECTED AREAS OF THE ANDES AND THEIR IMPACT ON GEOIDAL HEIGHTS. Bulletin of Geodetic Sciences, 19(3). https://doi.org/10.5380/bcg.v19i3.33357

Issue

Vol. 19 No. 3 (2013)

Section

Article

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