Integral Sliding Mode Control Based on Barrier Function for Servo Actuator with Friction | ||
Engineering and Technology Journal | ||
Article 8, Volume 39, 2A, February 2021, Pages 248-259 PDF (984.54 K) | ||
DOI: 10.30684/etj.v39i2A.1826 | ||
Authors | ||
Anmar F. Abd* 1; Shibly A. Al-Samarraie2 | ||
1Control and System Engineering Department, University of Technology, Baghdad, Iraq, 61359@student.uotechnology.edu.iq. | ||
2Control and System Engineering Department, University of Technology, Baghdad, Iraq, 60132@uotechnology.edu.iq. | ||
Abstract | ||
This paper proposes the use of the integral sliding mode control (ISMC) based on the barrier function to control the servo actuator system with friction. Based on the barrier function, the main features of the ISMC design were preserved, additionally, the proposed control design is done without the need to know the bound on the system model uncertainty, accordingly, the overestimation of the control gain doesn’t take place and the chattering is eliminated. Moreover, the steady-state error can be adjusted via selecting the barrier function parameter only. The simulation results demonstrate the performance of the proposed ISMC based on the barrier function where the system angle successfully follows the desired angular position with a small pre-adjusted steady-state error. Additionally, the obtained results clarify superior features compared with a traditional ISMC designed to the same actuator. | ||
Keywords | ||
Barrier function; Integral sliding mode control; Servo actuator; Friction model | ||
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