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The Uruguayan hybrid geoid: UruGeoide2000
UruGeoide2000 is a hybrid geoid model for Uruguay computed in 2000. The extent is from 29° S to 36° S in latitude and 52° W to 60° W in longitude, however the model is valid in... -
The Uruguayan hybrid geoid: SGM2007
The Uruguayan geoid model, called SGM2007, was calculated by the Military Geographic Service (SGM) in 2007. The extent is from 29° S to 36° S in latitude and 52° W to 60° W in... -
The Uruguayan gravimetric quasi-geoid: UruQGeoide2007
The Uruguayan gravimetric quasi-geoid model UruQGeoide2007 was calculated by the Military Geographic Service (SGM) in 2007. The extent is from 29° S to 36° S in latitude and 52°... -
The Uruguayan gravimetric geoid: UruGeoide2007
The Uruguayan gravimetric geoid model UruGeoide2007 was calculated by the Military Geographic Service (SGM) in 2007. The extent is from 29° S to 36° S in latitude and 52° W to... -
The Uruguayan gravimetric quasi-geoid: UruQGeoide110
The Uruguayan gravimetric quasi-geoid model UruQGeoide110 was calculated by the Military Geographic Institute (IGM) in 2023. The extent is from 29.5° S to 35.5° S in latitude,... -
The Uruguayan gravimetric geoid: UruGeoide110
The Uruguayan gravimetric geoid model UruGeoide110 was calculated by the Military Geographic Institute (IGM) in 2023. The extent is from 29.5° S to 35.5° S in latitude, and... -
The Uruguayan hybrid geoid: IGM110
The official Uruguayan geoid model, called IGM110, was calculated by the Military Geographic Institute (IGM) in 2023 and consists of a grid of 1´ x 1´ geoidal undulations with a... -
The Minia University geoid based on window remove-restore technique for the C...
The ColWRRT-Minia2019 gravimetric geoid model has been computed by the Civil Engineering Department of Minia University. It has been worked out in the frame of the International... -
The Argentinian gravimetric geoid: GEOIDE-Ar16
The GEOIDE-Ar16 Argentinian gravimetric geoid model covers the area from 57° S to 20° S in latitude and from 76° W to 52° W in longitude, with a grid resolution of 1' × 1'. It... -
The Austrian hybrid geoid in the ETRS89 system: Austrian Geoid 2008 (GRS80)
The Austrian Geoid 2008 is the official geoid model for Austria provided by the Austrian Federal Office for Metrology and Surveying (BEV). This model describes the... -
The Austrian hybrid geoid in the MGI system: Austrian Geoid 2008 (Bessel)
The Austrian Geoid 2008 is the official geoid model for Austria provided by the Austrian Federal Office for Metrology and Surveying (BEV). This model describes the... -
The gravimetric geoid of Costa Rica: GCR-RSH-2020
The geoid for Costa Rica GCR-RSH-2020 (Geoide-Costarricense-Regional Calculado con el Método de Stokes-Helmert) is a 1 arc minute grid computed from terrestrial, marine and... -
The Slovenian hybrid quasi-geoid: SLO-VRP2016/Koper
The SLO-VRP2016/Koper quasi-geoid model is the latest height reference surface for Slovenia, referred to the GRS80 ellipsoid. The acronym means SLOvenska Višinska Referenčna... -
The Turkish hybrid geoid: TG-20
The Turkish Geoid Model-2020 (TG-20) is currently the official geoid model for Turkey computed by the General Directorate of Mapping, the national mapping agency. It is a hybrid... -
The Indian gravimetric geoid model based on the Stokes-Helmert approach with ...
The IndGG-SH2021 is the Indian Gravimetric Geoid model developed using the Stokes-Helmert method. Data used are terrestrial gravity anomalies from GETECH, satellite-altimeter... -
The Indian gravimetric geoid model based on the Curtin University approach wi...
The IndGG-CUT2021 is the Indian Gravimetric Geoid model developed using the Curtin University of Technology (CUT) approach, namely Moritz’s analytical solution to Molodensky’s... -
The Indian gravimetric geoid model based on the KTH method of Least Squares m...
The IndGG-LSMSA2021 is the Indian Gravimetric Geoid model developed using the Royal Institute of Technology (KTH) method of Least Squares Modification of the Stokes formula with... -
The Ghanaian gravimetric geoid: GGG2017
The Ghanaian Gravimetric Geoid 2017 (GGG2017) covers the area between 4°N to 12°N and 4°W to 2°E. It is referred to the WGS84 reference ellipsoid and was computed using Heck and... -
The CGS geoid based on FFT with degree-banded modification of the Stokes kern...
The ColFFTDB-CGS2019 gravimetric geoid model has been computed by the Canadian Geodetic Survey (CGS), Natural Resources Canada. It has been worked out in the frame of the... -
The CGS quasi-geoid based on FFT with degree-banded modification of the Stoke...
The ColFFTDB-CGS2019 gravimetric quasi-geoid model has been computed by the Canadian Geodetic Survey (CGS), Natural Resources Canada. It has been worked out in the frame of the...