Interplanetary navigation
Abstract
The evolution of NASA's planetary navigation techniques is traced, and radiometric and optical data types are described. Doppler navigation; the Deep Space Network; differenced two-way range techniques; differential very long base interferometry; and optical navigation are treated. The Doppler system enables a spacecraft in cruise at high absolute declination to be located within a total angular uncertainty of 1/4 microrad. The two-station range measurement provides a 1 microrad backup at low declinations. Optical data locate the spacecraft relative to the target to an angular accuracy of 5 microrad. Earth-based radio navigation and its less accurate but target-relative counterpart, optical navigation, thus form complementary measurement sources, which provide a powerful sensory system to produce high-precision orbit estimates.
- Publication:
-
Space Mathematics for the Preparation and the Development of Satellite Exploitations
- Pub Date:
- 1984
- Bibcode:
- 1984smse.rept.1015S
- Keywords:
-
- Doppler Navigation;
- Doppler Radar;
- Interplanetary Navigation;
- Radar Navigation;
- Celestial Navigation;
- Deep Space Network;
- Microwave Radiometers;
- Optical Data Processing;
- Orbital Position Estimation;
- Range And Range Rate Tracking;
- Very Long Base Interferometry;
- Space Communications, Spacecraft Communications, Command and Tracking