Home /Research /Practical Nonsingular Terminal Sliding-Mode Control of Robot Manipulators for High-Accuracy Tracking Control
MANIPULATION

Practical Nonsingular Terminal Sliding-Mode Control of Robot Manipulators for High-Accuracy Tracking Control

Maolin Jin, Jinoh Lee, Pyung Hun Chang, Chintae Choi

Year
2009
Citations
422

Abstract

This paper presents a practical nonsingular terminal sliding-mode (TSM) tracking control design for robot manipulators using time-delay estimation (TDE). The proposed control assures fast convergence due to the nonlinear TSM, and requires no prior knowledge about the robot dynamics due to the TDE. Despite its model-free nature, the proposed control provides high-accuracy control and robustness against parameters variations. The simplicity, robustness, and fast convergence of the proposed control are verified through both 2-DOF planar robot simulations and 3-DOF PUMA-type robot experiments.

Keywords

Robustness (evolution)Control theory (sociology)RobotInvertible matrixSliding mode controlConvergence (economics)Iterative learning controlNonlinear systemComputer scienceTerminal sliding mode

Related papers

Browse all MANIPULATION papers