Title :
Nonlinear tracking control for satellite formations
Author :
Yeh, Hsi-Han ; Nelson, Eric ; Sparks, Andrew
Author_Institution :
AFRL/VACA, Wright Patterson AFB, OH, USA
Abstract :
A tracking control law using a sliding mode framework is derived to control a satellite formation. Hill´s relative motion equations are used to model the follower satellite´s motion relative to the leader. To minimize fuel required to maintain the formation, each satellite is constrained to reside near a natural orbit. Control forces are applied only to maintain the desired relative motion by correcting for initial offsets and perturbation effects that tend to disperse the formation. The control law is modified to account for the discontinuous nature of the control forces available with the satellite propulsive thrusters. Numerical simulations using a high-fidelity, nonlinear model demonstrate the control law performance for the full nonlinear dynamics with high order perturbations
Keywords :
aerospace control; artificial satellites; control system synthesis; nonlinear control systems; nonlinear dynamical systems; position control; variable structure systems; Hill´s relative motion equations; high order perturbations; high-fidelity nonlinear model; nonlinear tracking control; propulsive thrusters; satellite formations; sliding mode framework; Dispersion; Earth; Force control; Fuels; Gravity; Motion control; Nonlinear equations; Satellites; Sliding mode control; Vehicle dynamics;
Conference_Titel :
Decision and Control, 2000. Proceedings of the 39th IEEE Conference on
Conference_Location :
Sydney, NSW
Print_ISBN :
0-7803-6638-7
DOI :
10.1109/CDC.2000.912781
