With the advent of multiple-vehicle operations in support of the space station, on-orbit refurbishment, and several other missions, there is a need to intelligently plan proximity operations trajectories that will conserve limited available fuel while avoiding collisions. Upon reaching the objective, the capture process entails several unique considerations, such as coordinating motion with a tumbling target, the capture itself, and adapting to control of the new configuration resulting from the capture operation. This paper outlines a systematic process of technical development over several years at the Draper laboratory, culminating in a capability to perform manual augmented or fully autonomous rendezvous, capture, and control of the resulting configuration.
Automated System for Spacecraft Proximity Operations
1991
3 pages
Report
No indication
English
An automated system for spacecraft proximity operations
NTRS | 1991
|Collision detection for spacecraft proximity operations
NTRS | 1991
|Collision detection for spacecraft proximity operations
AIAA | 1991
|