DocumentCode
1731303
Title
Distributed adaptive sliding mode control for attitude tracking of multiple spacecraft
Author
Yang Dapeng ; Liu Xiangdong ; Li Zhongkui ; Guo Yaohua
Author_Institution
Key Lab. for Intell. Control & Decision of Complex Syst., Beijing Inst. of Technol., Beijing, China
fYear
2013
Firstpage
6917
Lastpage
6922
Abstract
This paper considers the distributed attitude tracking problem of multiple spacecraft with disturbances and unknown inertia matrices. Based on the relative attitudes and angular velocities of neighboring spacecraft, we design a distributed robust controller to each follower to guarantee that the attitude errors between the followers and the leader converge to zero for any communication graph containing a directed spanning tree with the leader as the root. To deal with the problem of parameters uncertainties, we further propose a distributed adaptive sliding mode controller, under which the system is globally robust with respect to external disturbances and inertia matrices uncertainties.
Keywords
adaptive control; attitude control; control system synthesis; distributed control; matrix algebra; robust control; space vehicles; trees (mathematics); uncertain systems; variable structure systems; angular velocities; communication graph; directed spanning tree; distributed adaptive sliding mode controller; distributed attitude tracking problem; distributed robust controller design; external disturbances; inertia matrices uncertainties; neighboring spacecraft; parameters uncertainties; relative attitudes; Angular velocity; Attitude control; Robustness; Space vehicles; Synchronization; Topology; Vectors; Adaptive Control; Attitude Tracking; Distributed Control; Multiple Spacecraft; Sliding Mode Control;
fLanguage
English
Publisher
ieee
Conference_Titel
Control Conference (CCC), 2013 32nd Chinese
Conference_Location
Xi´an
Type
conf
Filename
6640654
Link To Document