Sources of information for present knowledge of Earth's gravitational field are discussed as well as the Goddard Earth models. Improvements to these models can be achieved by using additional data and reprocessing some earlier data. Plans for using satellite-to-satellite tracking and gravity gradiometers for the geopotential research mission are considered as well as the relative merits of each method. Present knowledge of solar system bodies and strategies for their exploration are also described. A core program for planetary exploration through the year 2000 is summarized as well as ten candidate subsequent missions. Of these, the lunar geoscience orbiter has the best justification for a gravity gradiometer since far side gravity data can be acquired without the requirement for a separate communications relay satellite. For rendezvous missions, the gradiometer can permit on-board automation of orbit computation and control thus reducing the time devoted to communication with an orbiter.
Spaceborne Gravity Gradiometers. Part 2: Role of gravity gradiometers in NASA's programs
1984-03-01
Aufsatz (Konferenz)
Keine Angabe
Englisch
Spaceborne Gravity Gradiometers
NTRS | 1984
|Mechanical isolation for gravity gradiometers
NTRS | 1990
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