Title :
Formation sensing and control technologies for a separated spacecraft interferometer
Author :
Robertson, Andrew ; Corazzini, TobC ; How, Jonathan P.
Author_Institution :
Stanford Univ., CA, USA
Abstract :
Describes spacecraft formation control and sensing research with application to a separated spacecraft interferometer. A multi-layer control design that achieves very accurate alignment between spacecraft is described. Sensing for this control architecture is based on a global real-time relative position and orientation estimator that uses carrier differential-phase GPS measurements. A local optical sensor is used as well. The experiments are performed on a fully functional indoor GPS environment using three prototype spacecraft on a granite table. Work continues on extending the control to a formation of three active vehicles and on extending the sensing system to a self-constellation
Keywords :
Global Positioning System; aerospace control; light interferometers; optical sensors; space vehicles; active vehicles; carrier differential-phase GPS measurements; formation control technologies; formation sensing; fully functional indoor GPS environment; global real-time relative position/orientation estimator; local optical sensor; multi-layer control design; separated spacecraft interferometer; Control systems; Extraterrestrial measurements; Global Positioning System; Optical control; Optical interferometry; Optical sensors; Optical transmitters; Position measurement; Space technology; Space vehicles;
Conference_Titel :
American Control Conference, 1998. Proceedings of the 1998
Conference_Location :
Philadelphia, PA
Print_ISBN :
0-7803-4530-4
DOI :
10.1109/ACC.1998.707271
