Study on Finite-time Fault-tolerant Control for a Robot Manipulator Based on Synchronous Terminal Sliding Mode Control

Authors

  • Quang Dan Le Department of Electrical, Electronic and Computer Engineering, University of Ulsan, Ulsan 44610, Korea.
  • Hee-Jun Kang School of Electrical Engineering, University of Ulsan, Ulsan 44610, Korea.

DOI:

https://doi.org/10.9734/bpi/naer/v13/12782D

Keywords:

Synchronous terminal sliding mode control, finite-time fault-tolerant control, finite-time synchronization control, fault-tolerance for robot manipulator, robot manipulator

Abstract

In this paper, two finite-time active fault-tolerant controllers for a robot manipulator, which combine a synchronous terminal sliding mode control with an extended state observer, are proposed. First, an extended state observer is adopted to estimate the lumped uncertainties, disturbances, and faults. The estimation information is used to compensate the controller designed in the following step. We present an active fault-tolerant control with finite-time synchronous terminal sliding mode control, largely based on a novel finite-time synchronization error and coupling position error. We also present an active fault-tolerant control that does not use a coupling position error. By using synchronization control, the position error at each joint can simultaneously approach toward zero and toward equality, which may reduce the picking phenomenon associated with the active fault-tolerant controller strategy. Finally, simulation and experimental results for a three degree-of-freedom robot manipulator verify the effectiveness of the two proposed active fault-tolerant controllers.

Published

2021-08-24

How to Cite

Quang Dan Le, & Hee-Jun Kang. (2021). Study on Finite-time Fault-tolerant Control for a Robot Manipulator Based on Synchronous Terminal Sliding Mode Control. New Approaches in Engineering Research Vol. 13, 139–154. https://doi.org/10.9734/bpi/naer/v13/12782D