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orbitPublisher
The feasibility of employing satellite to satellite tracking in lieu of ground based tracking to satisfy the orbit determination requirements of the GEOS-C mission was studied. It is shown that with proper estimation procedures it is possible to obtain from S.S.T. data a GEOS-C orbit whose altitude error averages about 1 meter. The usefulness of this type for geopotential recovery is also indicated
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
The main target here is to determine the orbit of an artificial satellite, using signals of the GPS ...
Station coordinates are given for the C-band radar GEOS-C altimeter calibration sites at Bermuda, Me...
Effective utilization of data from the GEOS-C satellite for geoidal mapping was explored. Particular...
Accuracy studies of radar and optical tracking of GEOS-C for altimeter experimen
The nature and improvement in satellite orbit determination when precise altimetric height data are ...
Location errors of tracking stations affecting computed position of GEOS-1 satellite and fits of dat...
The accuracy with which the GEOS-C altitude may be estimated over long (7 day) and short (40 minute)...
The uncertainty in relay satellite sate is a significant error source which cannot be ignored in the...
Precision satellite to satellite tracking can be used to obtain high precision and resolution maps o...
An oceanographic-geodetic satellite, designated Geodynamics Experimental Ocean Satellite-C (GEOS-C),...
Satellite-to-satellite tracking and orbit computation accuracy is evaluated on the basis of data obt...
A satellite-to-satellite tracking experiment is planned between ATS-F and GEOS-C with a range accura...
The satellite-to-satellite (STS) tracking concept for estimating gravitational parameters offers an ...
A tracking system error analysis computer program is reported to study the feasibility of using rang...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
The main target here is to determine the orbit of an artificial satellite, using signals of the GPS ...
Station coordinates are given for the C-band radar GEOS-C altimeter calibration sites at Bermuda, Me...
Effective utilization of data from the GEOS-C satellite for geoidal mapping was explored. Particular...
Accuracy studies of radar and optical tracking of GEOS-C for altimeter experimen
The nature and improvement in satellite orbit determination when precise altimetric height data are ...
Location errors of tracking stations affecting computed position of GEOS-1 satellite and fits of dat...
The accuracy with which the GEOS-C altitude may be estimated over long (7 day) and short (40 minute)...
The uncertainty in relay satellite sate is a significant error source which cannot be ignored in the...
Precision satellite to satellite tracking can be used to obtain high precision and resolution maps o...
An oceanographic-geodetic satellite, designated Geodynamics Experimental Ocean Satellite-C (GEOS-C),...
Satellite-to-satellite tracking and orbit computation accuracy is evaluated on the basis of data obt...
A satellite-to-satellite tracking experiment is planned between ATS-F and GEOS-C with a range accura...
The satellite-to-satellite (STS) tracking concept for estimating gravitational parameters offers an ...
A tracking system error analysis computer program is reported to study the feasibility of using rang...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
The main target here is to determine the orbit of an artificial satellite, using signals of the GPS ...
Station coordinates are given for the C-band radar GEOS-C altimeter calibration sites at Bermuda, Me...
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