A summary of the European Earth Sciences Space Programme and the requirements for each gravity field mapping resulting from this programme are given. Three satellite experiments for gravity field improvement proposed to the European Space Agency in the last years are shortly characterized. One of these experiments, the low-low-SST-SLALOM experiment, based on laser interferometry for a "two target-one Spacelab telescope" configuration, is discussed in more detail. Reasons for the low-low concept selection are given and some mission aspects and a possible system concept for a compact ranging, acquisition and tracking system are presented
Several activities are on going in preparation of a “Next Generation Gravity Mission” (NGGM) aimed a...
The European ARISTOTELES mission aims at the determination of the Earth's gravity field at short wav...
A simulation of the proposed low Gravsat and high Geopause satellite mission is presented. This miss...
Under contract of the European Space Agency a system study for a spaceborne gravity field recovery m...
Various techniques for using satellite technology to determine the earth's gravity field are analyze...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
Since Kepler, Newton and Huygens in the seventeenth century, geodesy has been concerned with determi...
Current knowledge of the Earth’s gravity field and its geoid, as derived from various observing tech...
International audienceCurrent knowledge of the Earth's gravity field and its geoid, as derived from ...
A detailed and accurate earth gravity field model is important to the understanding of the structure...
The Gravity Recovery and Climate Experiment (GRACE) is one of the present missions to map the Earth'...
In the recent years, space-based observation methods have led to a subst- tially improved understand...
The satellite-to-satellite (STS) tracking concept for estimating gravitational parameters offers an ...
In the last decade, satellite gravimetry has been revealed as a pioneering technique for mapping ma...
Providing global and high-resolution estimates of the Earth's gravity field and its temporal variati...
Several activities are on going in preparation of a “Next Generation Gravity Mission” (NGGM) aimed a...
The European ARISTOTELES mission aims at the determination of the Earth's gravity field at short wav...
A simulation of the proposed low Gravsat and high Geopause satellite mission is presented. This miss...
Under contract of the European Space Agency a system study for a spaceborne gravity field recovery m...
Various techniques for using satellite technology to determine the earth's gravity field are analyze...
Knowledge of the earth's gravity field continued to increase during the last four years. Altimetry d...
Since Kepler, Newton and Huygens in the seventeenth century, geodesy has been concerned with determi...
Current knowledge of the Earth’s gravity field and its geoid, as derived from various observing tech...
International audienceCurrent knowledge of the Earth's gravity field and its geoid, as derived from ...
A detailed and accurate earth gravity field model is important to the understanding of the structure...
The Gravity Recovery and Climate Experiment (GRACE) is one of the present missions to map the Earth'...
In the recent years, space-based observation methods have led to a subst- tially improved understand...
The satellite-to-satellite (STS) tracking concept for estimating gravitational parameters offers an ...
In the last decade, satellite gravimetry has been revealed as a pioneering technique for mapping ma...
Providing global and high-resolution estimates of the Earth's gravity field and its temporal variati...
Several activities are on going in preparation of a “Next Generation Gravity Mission” (NGGM) aimed a...
The European ARISTOTELES mission aims at the determination of the Earth's gravity field at short wav...
A simulation of the proposed low Gravsat and high Geopause satellite mission is presented. This miss...