Paper Info
Title
Adaptive computed torque control for a parallel manipulator with redundant actuation
Abstract
An adaptive computed torque (ACT) controller in the task space is proposed for the trajectory tracking of a parallel manipulator with redundant actuation. The dynamic model, including the active joint friction, is established in the task space for the parallel manipulator, and the linear parameterization expression with respect to the dynamic and friction parameters is formulated. On the basis of the dynamic model, a new control law, which contains adaptive dynamics compensation, friction compensation, and tracking error elimination terms, is designed. After defining the state-space model of the error system, the parameter adaptation law is derived by using the Lyapunov method, and the convergence of the tracking error and the error rate is proved by using the Barbalat's lemma. The ACT controller is implemented in the trajectory tracking experiments of an actual 2-DOF parallel manipulator with redundant actuation, and the experiment results are compared with the computed torque controller.
Year
DOI
Venue
2012
10.1017/S0263574711000762
Robotica
Keywords
DocType
Volume
tracking error,dynamic model,error elimination term,adaptive computed torque control,trajectory tracking experiment,parallel manipulator,trajectory tracking,error rate,redundant actuation,task space,error system
Journal
30
Issue
ISSN
Citations 
3
0263-5747
2
PageRank 
References 
Authors
0.41
0
3
Name
Order
Citations
PageRank
Weiwei Shang17713.89
Shuang Cong212933.36
Yuan Ge320.41