Continuous prediction of Spartan visibility from Orbiter over modeled free-flight mission
Abstract
Orbital operations in the neighborhood of other satellites or free-flying objects need the ability to see and detect such objects optically. This ability depends primarily on the brightness of the object relative to other sources present. The present analysis and computational procedure provides a means for predicting the visual brightness of a satellite when viewed from a nearby satellite in the same orbit. It is designed specifically for estimating the brightness of Spartan free-flyers from the STS Orbiters which release and later retrieve them, but the basic methods are applicable to other satellite-to-satellite visibility prediction problems. The Spartan reflector model defined herein is illuminated both by direct solar radiation and by the earth (albedo), producing a model source of defined directional intensity. The intensity in the Orbiter direction (along orbit) yields the desired maximum range directly. The required geometric and photometric calculations involve a number of angles in space, which are readily computed from the basic directions defining their sides. The time-dependent directions are determined by straightforward calculation from fundamental relationships and constants.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- January 1985
- Bibcode:
- 1985STIN...8711825K
- Keywords:
-
- Optical Tracking;
- Satellite-To-Satellite Tracking;
- Space Shuttle Orbiters;
- Spacecraft Tracking;
- Spartan Satellites;
- Angles (Geometry);
- Brightness;
- Earth Albedo;
- Photometry;
- Reflectance;
- Solar Radiation;
- Visibility;
- Space Communications, Spacecraft Communications, Command and Tracking