Various techniques for using satellite technology to determine the earth's gravity field are analyzed and compared. A high-low configuration satellite to satellite tracking mission is recommended for the determination of the long wavelength portion of the gravity field. Satellite altimetry and satellite gradiometry experiments are recommended for determination of the short wavelength portion of the gravity field. The recently developed least squares collocation method for estimating the gravity field from satellite derived data is analyzed and its equivalence to conventional methods is demonstrated
Improved knowledge of the Earth's gravity field was obtained from new and improved satellite measure...
Different forms of the theoretical gravity formula are summarized and methods of standardization of ...
A simulation of the proposed low Gravsat and high Geopause satellite mission is presented. This miss...
A detailed and accurate earth gravity field model is important to the understanding of the structure...
Linear estimation theory, along with a new technique to compute relative data weights, was applied t...
The satellite-to-satellite (STS) tracking concept for estimating gravitational parameters offers an ...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
A summary of the European Earth Sciences Space Programme and the requirements for each gravity field...
The concept of a Global Positioning System (GPS) receiver as a tracking facility and a gradiometer a...
Providing global and high-resolution estimates of the Earth's gravity field and its temporal variati...
Precision satellite to satellite tracking can be used to obtain high precision and resolution maps o...
Progress in the following areas is described: refining altimeter and altimeter crossover measurement...
The determination of the Earth's gravitational potential can be done through the analysis of satelli...
Gravity field measurement by satellite to satellite Doppler tracking, critical configurations for fu...
Satellite gravity gradiometry is a technique now under development which, by the middle of the next ...
Improved knowledge of the Earth's gravity field was obtained from new and improved satellite measure...
Different forms of the theoretical gravity formula are summarized and methods of standardization of ...
A simulation of the proposed low Gravsat and high Geopause satellite mission is presented. This miss...
A detailed and accurate earth gravity field model is important to the understanding of the structure...
Linear estimation theory, along with a new technique to compute relative data weights, was applied t...
The satellite-to-satellite (STS) tracking concept for estimating gravitational parameters offers an ...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
A summary of the European Earth Sciences Space Programme and the requirements for each gravity field...
The concept of a Global Positioning System (GPS) receiver as a tracking facility and a gradiometer a...
Providing global and high-resolution estimates of the Earth's gravity field and its temporal variati...
Precision satellite to satellite tracking can be used to obtain high precision and resolution maps o...
Progress in the following areas is described: refining altimeter and altimeter crossover measurement...
The determination of the Earth's gravitational potential can be done through the analysis of satelli...
Gravity field measurement by satellite to satellite Doppler tracking, critical configurations for fu...
Satellite gravity gradiometry is a technique now under development which, by the middle of the next ...
Improved knowledge of the Earth's gravity field was obtained from new and improved satellite measure...
Different forms of the theoretical gravity formula are summarized and methods of standardization of ...
A simulation of the proposed low Gravsat and high Geopause satellite mission is presented. This miss...