Control and joint inertia analysis of flexible manipulator based on singular perturbation theory

Author

Sanxiu, Wang ; Li, Yu ; Jianming, Xu

Author_Institution

Coll. of Inf. Eng., Zhejiang Univ. of Technol., Hangzhou, China

fYear

2012

fDate

25-27 July 2012

Firstpage

493

Lastpage

497

Abstract

Aiming at the flexible manipulator suppress the beam vibration while track a desired trajectory, the paper decouples the system of flexible-link manipulator into rigid motion (slow subsystem) and flexible vibration (fast subsystem) two different time scale subsystems based on singular perturbation theory and presents a simple composite control scheme. For the slow subsystem, a PD controller is employed to track the desired trajectory, while optimal controller is used to stabilize the fast subsystem to suppress the vibration. The simulation results demonstrate the effectiveness of the proposed control strategy. Furthermore, the effect of the joint inertia on the performance of flexible manipulator is discussed.

Keywords

PD control; flexible manipulators; optimal control; singularly perturbed systems; stability; trajectory control; vibration control; PD controller; beam vibration suppression; composite control scheme; flexible link manipulator; flexible vibration; joint inertia analysis; optimal controller; singular perturbation theory; stability; time scale subsystems; trajectory tracking; Educational institutions; Electronic mail; Joints; Manipulators; Service robots; Vibrations; Fast Subsystem; Flexible-link Manipulator; Joint Inertia; Singular Perturbation; Slow Subsystem;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (CCC), 2012 31st Chinese

Conference_Location

Hefei

ISSN

1934-1768

Print_ISBN

978-1-4673-2581-3

Type

conf

Filename

6389979