Adaptive disturbance observer-based fast nonsingular terminal sliding mode control for quadrotors

Han Miao; Tao Song; Jiaxiang Liu; Jianchuan Ye

doi:10.1016/j.jfranklin.2024.107092

Adaptive disturbance observer-based fast nonsingular terminal sliding mode control for quadrotors

Han Miao, Tao Song, Jiaxiang Liu, Jianchuan Ye^*

^*Corresponding author for this work

School of Aerospace Engineering

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

Abstract

In this paper, a sliding-mode disturbance observer (SMDO)-based finite-time control scheme is proposed for a quadrotor under uncertainties and external disturbances. The SMDO is used to estimate and compensate the unknown time-varying disturbance with minor chattering and rapid convergence. However, a priori bounded uncertainty may impose a priori constraint on the system state before obtaining closed-loop stability. To address this issue, an adaptive SMDO (ASMDO) with a nested adaptive structure is further introduced. As for controller design, a fast nonsingular integral terminal sliding mode controller (FNITSMC) is proposed to ensure finite-time convergence and zero tracking error for the quadrotor attitude control. Finally, effectiveness of proposed method is verified through simulations and experiments.

Original language	English
Article number	107092
Journal	Journal of the Franklin Institute
Volume	361
Issue number	14
DOIs	https://doi.org/10.1016/j.jfranklin.2024.107092
Publication status	Published - Sept 2024

Keywords

Fast nonsingular integral terminal sliding mode control
Finite-time control
Nested adaptive structure
Sliding-mode disturbance observer

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10.1016/j.jfranklin.2024.107092

Cite this

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title = "Adaptive disturbance observer-based fast nonsingular terminal sliding mode control for quadrotors",

abstract = "In this paper, a sliding-mode disturbance observer (SMDO)-based finite-time control scheme is proposed for a quadrotor under uncertainties and external disturbances. The SMDO is used to estimate and compensate the unknown time-varying disturbance with minor chattering and rapid convergence. However, a priori bounded uncertainty may impose a priori constraint on the system state before obtaining closed-loop stability. To address this issue, an adaptive SMDO (ASMDO) with a nested adaptive structure is further introduced. As for controller design, a fast nonsingular integral terminal sliding mode controller (FNITSMC) is proposed to ensure finite-time convergence and zero tracking error for the quadrotor attitude control. Finally, effectiveness of proposed method is verified through simulations and experiments.",

keywords = "Fast nonsingular integral terminal sliding mode control, Finite-time control, Nested adaptive structure, Sliding-mode disturbance observer",

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T1 - Adaptive disturbance observer-based fast nonsingular terminal sliding mode control for quadrotors

AU - Miao, Han

AU - Song, Tao

AU - Liu, Jiaxiang

AU - Ye, Jianchuan

PY - 2024/9

Y1 - 2024/9

N2 - In this paper, a sliding-mode disturbance observer (SMDO)-based finite-time control scheme is proposed for a quadrotor under uncertainties and external disturbances. The SMDO is used to estimate and compensate the unknown time-varying disturbance with minor chattering and rapid convergence. However, a priori bounded uncertainty may impose a priori constraint on the system state before obtaining closed-loop stability. To address this issue, an adaptive SMDO (ASMDO) with a nested adaptive structure is further introduced. As for controller design, a fast nonsingular integral terminal sliding mode controller (FNITSMC) is proposed to ensure finite-time convergence and zero tracking error for the quadrotor attitude control. Finally, effectiveness of proposed method is verified through simulations and experiments.

AB - In this paper, a sliding-mode disturbance observer (SMDO)-based finite-time control scheme is proposed for a quadrotor under uncertainties and external disturbances. The SMDO is used to estimate and compensate the unknown time-varying disturbance with minor chattering and rapid convergence. However, a priori bounded uncertainty may impose a priori constraint on the system state before obtaining closed-loop stability. To address this issue, an adaptive SMDO (ASMDO) with a nested adaptive structure is further introduced. As for controller design, a fast nonsingular integral terminal sliding mode controller (FNITSMC) is proposed to ensure finite-time convergence and zero tracking error for the quadrotor attitude control. Finally, effectiveness of proposed method is verified through simulations and experiments.

KW - Fast nonsingular integral terminal sliding mode control

KW - Finite-time control

KW - Nested adaptive structure

KW - Sliding-mode disturbance observer

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Adaptive disturbance observer-based fast nonsingular terminal sliding mode control for quadrotors

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