The characteristics of the geoid surface are quantitatively described. A procedure for calculating the satellite altitude is developed. Error sources are described quantitatively, mathematically modeled, and evaluated in computer simulation. Procedures for maximum likelihood processing of altimeter data for recovery of orbit and geopotential information are presented for several geopotential models
The programs described were developed to process GEODYN-formatted satellite altimeter data, and to a...
Development of gravimetric geoid for US from satellite derived gravity data and local gravimetric me...
A number of detailed gravimetric geoids of portions of the world's oceans from marine gravity measur...
Altimeter data from a spacecraft borne altimeter was processed to estimate the fine structure of the...
Approximately 2000 GEOS-3 altimeter arcs were analyzed to improve knowledge of the geoid and gravity...
From the adjusted altimeter data an approximation to the geoid height in ocean areas is obtained. Me...
An experiment is proposed to test a first generation spacecraft-borne radar altimeter's capability t...
The data were adjusted to remove orbit error and altimeter bias in a primary adjustment and four reg...
The accuracy with which the local ocean geoid structure could be determined using satellite altimetr...
In processing altimeter data from a spacecraft borne altimeter to estimate the fine structure of the...
Data from spacecraft altimeters are expected to contribute to an improved determination of the marin...
A satellite-to-satellite tracking experiment is planned between ATS-F and GEOS-C with a range accura...
A method for the simultaneous solution of dynamic ocean topography, gravity and orbits using satelli...
Satellite-based altimetric data taken by GEOS-3 and SEASAT over the Black Sea and Caspian Sea are an...
The GEOS-C spacecraft is scheduled to carry onboard a radar altimeter for the purpose of measuring t...
The programs described were developed to process GEODYN-formatted satellite altimeter data, and to a...
Development of gravimetric geoid for US from satellite derived gravity data and local gravimetric me...
A number of detailed gravimetric geoids of portions of the world's oceans from marine gravity measur...
Altimeter data from a spacecraft borne altimeter was processed to estimate the fine structure of the...
Approximately 2000 GEOS-3 altimeter arcs were analyzed to improve knowledge of the geoid and gravity...
From the adjusted altimeter data an approximation to the geoid height in ocean areas is obtained. Me...
An experiment is proposed to test a first generation spacecraft-borne radar altimeter's capability t...
The data were adjusted to remove orbit error and altimeter bias in a primary adjustment and four reg...
The accuracy with which the local ocean geoid structure could be determined using satellite altimetr...
In processing altimeter data from a spacecraft borne altimeter to estimate the fine structure of the...
Data from spacecraft altimeters are expected to contribute to an improved determination of the marin...
A satellite-to-satellite tracking experiment is planned between ATS-F and GEOS-C with a range accura...
A method for the simultaneous solution of dynamic ocean topography, gravity and orbits using satelli...
Satellite-based altimetric data taken by GEOS-3 and SEASAT over the Black Sea and Caspian Sea are an...
The GEOS-C spacecraft is scheduled to carry onboard a radar altimeter for the purpose of measuring t...
The programs described were developed to process GEODYN-formatted satellite altimeter data, and to a...
Development of gravimetric geoid for US from satellite derived gravity data and local gravimetric me...
A number of detailed gravimetric geoids of portions of the world's oceans from marine gravity measur...