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Contribution of GRAV-D airborne gravity to improvement of regional gravimetric geoid modelling in Colorado, USA

Matej Varga, Martin Pitoňák, Pavel Novák, Tomislav Bašić

2021Journal of Geodesy32 citationsDOIOpen Access PDF

Abstract

Abstract This paper studies the contribution of airborne gravity data to improvement of gravimetric geoid modelling across the mountainous area in Colorado, USA. First, airborne gravity data was processed, filtered, and downward-continued. Then, three gravity anomaly grids were prepared; the first grid only from the terrestrial gravity data, the second grid only from the downward-continued airborne gravity data, and the third grid from combined downward-continued airborne and terrestrial gravity data. Gravimetric geoid models with the three gravity anomaly grids were determined using the least-squares modification of Stokes’ formula with additive corrections (LSMSA) method. The absolute and relative accuracy of the computed gravimetric geoid models was estimated on GNSS/levelling points. Results exhibit the accuracy improved by 1.1 cm or 20% in terms of standard deviation when airborne and terrestrial gravity data was used for geoid computation, compared to the geoid model computed only from terrestrial gravity data. Finally, the spectral analysis of surface gravity anomaly grids and geoid models was performed, which provided insights into specific wavelength bands in which airborne gravity data contributed and improved the power spectrum.

Topics & Concepts

GeoidGeodesyGeologyGravity anomalyAnomaly (physics)GeophysicsPhysicsCondensed matter physicsMeasured depthPaleontologyOil fieldGeophysics and Gravity MeasurementsGNSS positioning and interferenceGeophysical and Geoelectrical Methods
Contribution of GRAV-D airborne gravity to improvement of regional gravimetric geoid modelling in Colorado, USA | Litcius