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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... -
GRACE-FO Geopotential GSM Coefficients GFZ RL06
Spherical harmonic coefficients representing an estimate of Earth's mean gravity field during the specified timespan derived from GRACE-FO mission measurements. These... -
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 experimental gravity field model XGM2019e
XGM2019e is a combined global gravity field model represented through spheroidal harmonics up to d/o 5399, corresponding to a spatial resolution of 2’ (~4 km). As data sources... -
Post-processed GRACE/GRACE-FO Geopotential GSM Coefficients GFZ RL06 (Level-2...
Version History: 09 June 2020:Release of Version 0002. This is an update of Version 0001 of the same data set. All changes and updates are documented in the changelog available... -
Post-processed GRACE/GRACE-FO Geopotential GSM Coefficients COST-G RL01 (Leve...
Version History: 15 June 2020: Initial release of the data. Note that the initial version number is 0002 in order to reflect the consistent data processing of this data set... -
Monthly estimates of C(2,0) generated by GFZ from SLR satellites based on GFZ...
As a convenience to users who wish to use a replacement value for C(2,0) of GFZ's GRACE/GRACE-FO RL06 GSM products, a monthly GFZ C(2,0) estimate time series is provided. These... -
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... -
Ellipsoidal Harmonic Forward Model derived from Earth2014 topographies up to ...
The model named EHFM_Earth_7200 was derived by layer-based forward modeling technique in ellipsoidal harmonics, the maximum degree of this model reaches 7200. The relief... -
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... -
AIUB-G3P GRACE monthly gravity field solutions
GRACE monthly gravity field solutions starting from April 2002 to June 2017 up to degree and order 90 computed with the Celestial Mechanics Approach at AIUB. The time series... -
AIUB-GRACE-FO-operational - Operational GRACE Follow-On monthly gravity field...
Operational GRACE Follow-On monthly gravity field solutions starting from June 2018 up to degree and order 96 computed with the Celestial Mechanics Approach at AIUB. The time... -
AIUB-GRACE-FO-operational - Operational GRACE Follow-On monthly gravity field...
Operational GRACE Follow-On monthly gravity field solutions starting from June 2018 up to degree and order 96 computed with the Celestial Mechanics Approach at AIUB (release... -
3D-NEA: Three-dimensional lithospheric-scale structural model of the North Ea...
The Northeast Atlantic (NEA) region has long been a subject of interest due to its complex geological history, particularly regarding the interaction between the Iceland plume... -
Multi-approach Gravity Field Models from Swarm GPS data
Although the knowledge of the gravity of the Earth has improved considerably with CHAMP, GRACE and GOCE satellite missions, the geophysical community has identified the need for... -
International Combination Service for Time-variable Gravity Fields (COST-G) M...
Combined monthly gravity fields of the GRACE satellite mission in spherical harmonic representation (Level-2 product) generated by the Combination Service for Time-variable... -
International Combination Service for Time-variable Gravity Fields (COST-G) M...
Operationally combined monthly gravity fields of the GRACE-FO satellite mission in spherical harmonic representation (Level-2 product) generated by the Combination Service for...
