Title :
Optimal impulsive maneuvers for formation reconfiguration using relative orbit elements
Author :
Jianfeng Yin ; Chao Han
Author_Institution :
Inst. of Spacecraft Syst. Eng., CAST, Beijing, China
Abstract :
A new set of relative orbit elements (ROEs) is used to derive a new analytical optimal formation control strategy. The control of in-plane and out-of-plane relative motions can be completely decoupled using the ROEs-based impulsive feedback control law. The effects of the earth gravity harmonics perturbation (mainly J2) on the relative orbit are derived. Subsequently a formation optimal control approach are proposed. The analyses are conducted under two conditions, which means reconfiguration would be performed between the same configurations or between the different ones. Compared with optimal Lambert double impulsive method using improved particle swarm optimization (PSO) algorithm, the new multi-impulse reconfiguration strategy in this paper is validated by simulations. Results are presented through several typical examples.
Keywords :
aerospace control; feedback; motion control; optimal control; particle swarm optimisation; perturbation techniques; Earth gravity harmonics perturbation; PSO algorithm; ROE-based impulsive feedback control law; analytical optimal formation control strategy; formation reconfiguration; in-plane relative motion control; multiimpulse reconfiguration strategy; optimal impulsive maneuvers; out-of-plane relative motion control; particle swarm optimization; relative orbit elements; Fuels; Mathematical model; Motion control; Optimization; Orbits; Satellites; Space vehicles; formation flying; formation reconfiguration; optimal control; perturbation effects; relative orbit elements;
Conference_Titel :
Control Science and Systems Engineering (CCSSE), 2014 IEEE International Conference on
Print_ISBN :
978-1-4799-6396-6
DOI :
10.1109/CCSSE.2014.7224511
