Perturbed Unicycle Mobile Robots: A Second-Order Sliding-Mode Trajectory Tracking Control

Hector Rios; Manuel Mera; Andrey Polyakov

doi:10.1109/TIE.2023.3270520

Perturbed Unicycle Mobile Robots: A Second-Order Sliding-Mode Trajectory Tracking Control

Hector Rios, Manuel Mera, Andrey Polyakov

Unidad Profesional Interdisciplinaria de Biotecnología (UPIBI)

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

This article contributes to the design of a second-order sliding-mode controller for the trajectory tracking problem in perturbed unicycle mobile robots. The proposed strategy takes into account the design of two particular sliding variables, which ensure the convergence of the tracking error to the origin in a finite time despite the effect of some external perturbations. The straightforward structure of the controller is simple to tune and implement. The global, uniform, and finite-time stability of the closed-loop tracking error dynamics is demonstrated by means of Lyapunov functions. Furthermore, the performance of the proposed approach is validated through some experiments using a QBot2 unicycle mobile robot.

Original language	English
Pages (from-to)	2864-2872
Number of pages	9
Journal	IEEE Transactions on Industrial Electronics
Volume	71
Issue number	3
DOIs	https://doi.org/10.1109/TIE.2023.3270520
State	Published - 1 Mar 2024

Keywords

Sliding-mode control
trajectory tracking
unicycle mobile robots (UMRs)

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10.1109/TIE.2023.3270520

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title = "Perturbed Unicycle Mobile Robots: A Second-Order Sliding-Mode Trajectory Tracking Control",

abstract = "This article contributes to the design of a second-order sliding-mode controller for the trajectory tracking problem in perturbed unicycle mobile robots. The proposed strategy takes into account the design of two particular sliding variables, which ensure the convergence of the tracking error to the origin in a finite time despite the effect of some external perturbations. The straightforward structure of the controller is simple to tune and implement. The global, uniform, and finite-time stability of the closed-loop tracking error dynamics is demonstrated by means of Lyapunov functions. Furthermore, the performance of the proposed approach is validated through some experiments using a QBot2 unicycle mobile robot.",

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N2 - This article contributes to the design of a second-order sliding-mode controller for the trajectory tracking problem in perturbed unicycle mobile robots. The proposed strategy takes into account the design of two particular sliding variables, which ensure the convergence of the tracking error to the origin in a finite time despite the effect of some external perturbations. The straightforward structure of the controller is simple to tune and implement. The global, uniform, and finite-time stability of the closed-loop tracking error dynamics is demonstrated by means of Lyapunov functions. Furthermore, the performance of the proposed approach is validated through some experiments using a QBot2 unicycle mobile robot.

AB - This article contributes to the design of a second-order sliding-mode controller for the trajectory tracking problem in perturbed unicycle mobile robots. The proposed strategy takes into account the design of two particular sliding variables, which ensure the convergence of the tracking error to the origin in a finite time despite the effect of some external perturbations. The straightforward structure of the controller is simple to tune and implement. The global, uniform, and finite-time stability of the closed-loop tracking error dynamics is demonstrated by means of Lyapunov functions. Furthermore, the performance of the proposed approach is validated through some experiments using a QBot2 unicycle mobile robot.

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Perturbed Unicycle Mobile Robots: A Second-Order Sliding-Mode Trajectory Tracking Control

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