An adaptive sliding mode controller for a class of MIMO Euler-Lagrange systems with variable parameters

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Authors

  • Le Van Chuong Vinh University
  • Nguyen Trung Kien (Corresponding Author) Academy of Military Science and Technology

DOI:

https://doi.org/10.54939/1859-1043.j.mst.79.2022.1-9

Keywords:

Euler-Lagarance systems; Adaptive sliding-mode control; RBF neural network.

Abstract

This paper presents a method to synthesize the adaptive sliding mode controller for a class of MIMO Euler-Lagarance systems with variable parameters. We perform a Taylor series expansion of a class of MIMO Euler-Lagarance systems into nonlinear state-space equations, considering cases of varying parameters and unmeasured external disturbances. We propose a method to identify and compensate for variable components, external disturbance based on adaptive control theory, and RBF neural network to make the system invariant to these uncertain changing components. We build the control law based on sliding mode control. The research results of the paper obtained are that the adaptive sliding mode controller is adaptive, resistant to interference, and has high control quality.

References

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[10]. Shao, K., et al., “Adaptive sliding mode control for uncertain Euler-Lagrange systems with input saturation”, Journal of the Franklin Institute, 358(16), (2021), pp. 8356-8376.

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Published

19-05-2022

How to Cite

Lê Văn, C., and Nguyễn Trung Kiên. “An Adaptive Sliding Mode Controller for a Class of MIMO Euler-Lagrange Systems With Variable Parameters”. Journal of Military Science and Technology, no. 79, May 2022, pp. 1-9, doi:10.54939/1859-1043.j.mst.79.2022.1-9.

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Section

Research Articles