Title :
Optimal control of Lorentz spacecraft rendezvous on circular equatorial orbit
Author :
Huang Xu ; Yan Ye ; Zhou Yang
Author_Institution :
Coll. of Aerosp. Sci. & Eng., Nat. Univ. of Defense Technol., Changsha, China
Abstract :
Electrostatically charged spacecraft accelerates when orbiting a central body with magnetic field due to the Lorentz perturbations. This Lorentz perturbation could make compensate for the acceleration needed for spacecraft rendezvous. This paper builds the linearized relative dynamics model between the Lorentz spacecraft and the target spacecraft on circular equatorial orbit and gives approximate analytical expressions of the dynamics model. Based on this model, both open-loop and close-loop control law for rendezvous are designed, proposing an optimal control method. Classic numerical simulations prove the validity of both proposed dynamics model and control law.
Keywords :
aerospace control; closed loop systems; numerical analysis; open loop systems; optimal control; perturbation techniques; space vehicles; Lorentz perturbations; Lorentz spacecraft rendezvous; acceleration; circular equatorial orbit; close loop control law; electrostatically charged spacecraft; linearized relative dynamics model; numerical simulations; open loop control law; optimal control; Aerodynamics; Electronic mail; Numerical models; Optimal control; Orbits; Space vehicles; Circular Equatorial Orbit; Lorentz Spacecraft; Optimal Control; Relative Motion; Rendezvous;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
