Home /Research /Iterative learning control of robot manipulator with I-type parameter estimator
MANIPULATION

Iterative learning control of robot manipulator with I-type parameter estimator

Joon-Young Choi, Jiho Uh, Jin S. Lee

Year
2001
Citations
10

Abstract

This paper presents an iterative learning control (ILC) scheme for uncertain robotic systems that perform the same tasks repetitively. The proposed ILC scheme comprises a feedback controller and a feedforward learning controller using an integral-type(I-type) parameter estimator. In contrast with other ILC schemes, where the parameter estimates are varying in time, the proposed parameter estimator is invariant in time. Even with the time-invariant estimator, the entire profiles of position and velocity error trajectories during the operation time converge uniformly to zero as the number of iterations goes to infinity.

Keywords

Iterative learning controlEstimatorControl theory (sociology)LTI system theoryController (irrigation)Robot manipulatorInvariant (physics)RobotFeed forwardScheme (mathematics)

Related papers

Browse all MANIPULATION papers