Progress in the following areas is described: refining altimeter and altimeter crossover measurement models for precise orbit determination and for the solution of the earth's gravity field; performing experiments using altimeter data for the improvement of precise satellite ephemerides; and analyzing an optimal relative data weighting algorithm to combine various data types in the solution of the gravity field
The full exploitation of the oceanographical information contained in altimeter height observations ...
Linear estimation theory, along with a new technique to compute relative data weights, was applied t...
The primary experiment on the Geodynamics Experimental Ocean Satellite-3 (GEOS-3) is the radar altim...
The ability of satellite-borne radar altimeter data to measure the global ocean surface with high pr...
The application of satellite-borne radar altimeters to the field of satellite geodesy and satellite ...
A satellite-to-satellite tracking experiment is planned between ATS-F and GEOS-C with a range accura...
The formulation of a Fourier series and geographic representation expressions for orbit error were r...
Precision orbit determination methods, along with a new technique to compute relative data weights,...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
Combining satellite altimetry observations and surface gravimetry in geodetic determinations over oc...
An improved model for the Earth's gravity field, TEG-1, was determined using data sets from fourteen...
Two methods are tested whereby satellite altimeter measurements of the geoid height are combined wit...
The sea level changes both temporally (due to dynamic effects) and spatially (due to sea bottom topo...
Marine gravity field recovery relies heavily on satellite altimetry. Thanks to the evolution of alti...
This paper reviews the impacts of new satellite altimeter data sets and new technology on the produc...
The full exploitation of the oceanographical information contained in altimeter height observations ...
Linear estimation theory, along with a new technique to compute relative data weights, was applied t...
The primary experiment on the Geodynamics Experimental Ocean Satellite-3 (GEOS-3) is the radar altim...
The ability of satellite-borne radar altimeter data to measure the global ocean surface with high pr...
The application of satellite-borne radar altimeters to the field of satellite geodesy and satellite ...
A satellite-to-satellite tracking experiment is planned between ATS-F and GEOS-C with a range accura...
The formulation of a Fourier series and geographic representation expressions for orbit error were r...
Precision orbit determination methods, along with a new technique to compute relative data weights,...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
Combining satellite altimetry observations and surface gravimetry in geodetic determinations over oc...
An improved model for the Earth's gravity field, TEG-1, was determined using data sets from fourteen...
Two methods are tested whereby satellite altimeter measurements of the geoid height are combined wit...
The sea level changes both temporally (due to dynamic effects) and spatially (due to sea bottom topo...
Marine gravity field recovery relies heavily on satellite altimetry. Thanks to the evolution of alti...
This paper reviews the impacts of new satellite altimeter data sets and new technology on the produc...
The full exploitation of the oceanographical information contained in altimeter height observations ...
Linear estimation theory, along with a new technique to compute relative data weights, was applied t...
The primary experiment on the Geodynamics Experimental Ocean Satellite-3 (GEOS-3) is the radar altim...
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