Article: Decreasing control signal vibrations in the anti-noise model-free sliding mode control algorithm Journal: International Journal of Systems, Control and Communications (IJSCC) 2023 Vol.14 No.4 pp.341 - 356 Abstract: Thanks to the model-free sliding mode control (MFSMC) algorithm, we were able to overcome errors resulting from the modelling process. When this algorithm was tested in a noise-prone environment, it was observed that the system was not able to track the desired path. In previous research, an anti-noise model-free sliding mode control (AMFSMC) algorithm was proposed. It improved the performance of MFSMC algorithm and made it noise-resistant. The control signal of that AMFSMC algorithm has a lot of chattering, which limits the use of the algorithm in practice. In this research, an improved anti-noise model-free sliding mode control (IAMFSMC) algorithm was proposed to solve the chattering problem. The control law of AMFSMC was modified using three techniques: boundary layer, quasi-sliding mode control, and saturation function. The IAMFSMC algorithm was applied to a second-order linear system. The system performance using the three techniques was compared to that when the AMFSMC algorithm was applied. Simulation results showed that using the saturation function gave good tracking response, despite the presence of noise, with chattering-free and smooth control signal. Inderscience Publishers - linking academia, business and industry through research

Title: Decreasing control signal vibrations in the anti-noise model-free sliding mode control algorithm

Authors: Jomana Mahmoud Diab; Hasnaa Wasouf

Addresses: Faculty of Biomedical Engineering, Al Andalus University for Medical Sciences, Al-Qadmous, Tartous, 0963-043, Syria; Al Baath University, Homs, 0963-031, Syria ' Department of Automatic Control and Computers Engineering, Faculty of Mechanical and Electrical Engineering, Al Baath University, Homs, 0963-031, Syria

Abstract: Thanks to the model-free sliding mode control (MFSMC) algorithm, we were able to overcome errors resulting from the modelling process. When this algorithm was tested in a noise-prone environment, it was observed that the system was not able to track the desired path. In previous research, an anti-noise model-free sliding mode control (AMFSMC) algorithm was proposed. It improved the performance of MFSMC algorithm and made it noise-resistant. The control signal of that AMFSMC algorithm has a lot of chattering, which limits the use of the algorithm in practice. In this research, an improved anti-noise model-free sliding mode control (IAMFSMC) algorithm was proposed to solve the chattering problem. The control law of AMFSMC was modified using three techniques: boundary layer, quasi-sliding mode control, and saturation function. The IAMFSMC algorithm was applied to a second-order linear system. The system performance using the three techniques was compared to that when the AMFSMC algorithm was applied. Simulation results showed that using the saturation function gave good tracking response, despite the presence of noise, with chattering-free and smooth control signal.

Keywords: sliding mode control; model-free; chattering.

DOI: 10.1504/IJSCC.2023.133926

International Journal of Systems, Control and Communications, 2023 Vol.14 No.4, pp.341 - 356

Received: 14 Sep 2022
Accepted: 01 Feb 2023
Published online: 05 Oct 2023 *

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Title: Decreasing control signal vibrations in the anti-noise model-free sliding mode control algorithm

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