Add to ORKGImproved models of the Earth's gravitational field have been developed from conventional tracking data and from a combination of satellite tracking, satellite altimeter and surface gravimetric data. This combination model represents a significant improvement in the modeling of the gravity field at half-wavelengths of 300 km and longer. Both models are complete to degree and order 50. The Goddard Earth Model-T3 (GEM-T3) provides more accurate computation of satellite orbital effects as well as giving superior geoidal representation from that achieved in any previous GEM. A description of the models, their development and an assessment of their accuracy is presented. The GEM-T3 model used altimeter data from previous satellite missions in est...
A refinement in the satellite geopotential solution for a Goddard Earth Model (GEM 3) was obtained. ...
Comparisons and analyses were carried out through the use of detailed gravimetric geoids which we ha...
The nature and improvement in satellite orbit determination when precise altimetric height data are ...
The use of collocation permitted GEM 9 to be a larger field than previous derived satellite models, ...
Two models of the earth's gravitational field have been computed at Goddard Space Flight Center. The...
The GEM-T2 is the latest in a series of Goddard Earth Models of the terrestrial field. It was design...
Major new computations of terrestrial gravitational field models were performed by the Geodynamics B...
The Japanese Experimental Geodetic Satellite Ajisai was launched on August 12, 1986. In response to ...
An improved model for the Earth's gravity field, TEG-1, was determined using data sets from fourteen...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
Several tests were designed to determine the correct error variances for the GEM-T1 gravitational so...
A refinement was obtained in the earth's gravitational field using satellite and surface data. In ad...
Contour maps are presented of the global geoid. Free air gravity anomalies of the GEM-4 earth gravit...
Geodetic parameters describing the earth's gravity field and the positions of satellite-tracking sta...
A detailed and accurate earth gravity field model is important to the understanding of the structure...
A refinement in the satellite geopotential solution for a Goddard Earth Model (GEM 3) was obtained. ...
Comparisons and analyses were carried out through the use of detailed gravimetric geoids which we ha...
The nature and improvement in satellite orbit determination when precise altimetric height data are ...
The use of collocation permitted GEM 9 to be a larger field than previous derived satellite models, ...
Two models of the earth's gravitational field have been computed at Goddard Space Flight Center. The...
The GEM-T2 is the latest in a series of Goddard Earth Models of the terrestrial field. It was design...
Major new computations of terrestrial gravitational field models were performed by the Geodynamics B...
The Japanese Experimental Geodetic Satellite Ajisai was launched on August 12, 1986. In response to ...
An improved model for the Earth's gravity field, TEG-1, was determined using data sets from fourteen...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
Several tests were designed to determine the correct error variances for the GEM-T1 gravitational so...
A refinement was obtained in the earth's gravitational field using satellite and surface data. In ad...
Contour maps are presented of the global geoid. Free air gravity anomalies of the GEM-4 earth gravit...
Geodetic parameters describing the earth's gravity field and the positions of satellite-tracking sta...
A detailed and accurate earth gravity field model is important to the understanding of the structure...
A refinement in the satellite geopotential solution for a Goddard Earth Model (GEM 3) was obtained. ...
Comparisons and analyses were carried out through the use of detailed gravimetric geoids which we ha...
The nature and improvement in satellite orbit determination when precise altimetric height data are ...