Fixed-Time Extended Observer-Based Adaptive Sliding Mode Control for a Quadrotor UAV under Severe Turbulent Wind

IF 4.4 2区 地球科学 Q1 REMOTE SENSING Drones Pub Date : 2023-12-09 DOI:10.3390/drones7120700
Armando Miranda-Moya, H. Castañeda, Hesheng Wang
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Abstract

This paper presents a fixed-time extended state observer-based adaptive sliding mode controller evaluated in a quadrotor unmanned aerial vehicle subject to severe turbulent wind while executing a desired trajectory. Since both the state and model of the system are assumed to be partially known, the observer, whose convergence is independent from the initial states of the system, estimates the full state, model uncertainties, and the effects of turbulent wind in fixed time. Such information is then compensated via feedback control conducted by a class of adaptive sliding mode controller, which is robust to perturbations and reduces the chattering effect by non-overestimating its adaptive gain. Furthermore, the stability of the closed-loop system is analyzed by means of the Lyapunov theory. Finally, simulation results validate the feasibility and advantages of the proposed strategy, where the observer enhances performance. For further demonstration, a comparison with an existent approach is provided.
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基于固定时间扩展观测器的四旋翼无人机自适应滑模控制,适用于恶劣湍流风环境
本文介绍了一种基于固定时间扩展状态观测器的自适应滑模控制器,该控制器在四旋翼无人驾驶飞行器上进行评估,该飞行器在执行所需的轨迹时受到严重的湍流风的影响。由于假定系统的状态和模型都是部分已知的,因此观测器的收敛性与系统的初始状态无关,它能在固定时间内估计出完整的状态、模型的不确定性以及湍流风的影响。然后通过一类自适应滑模控制器进行反馈控制来补偿这些信息,该控制器对扰动具有鲁棒性,并通过不高估其自适应增益来减少颤振效应。此外,还通过 Lyapunov 理论分析了闭环系统的稳定性。最后,仿真结果验证了所提策略的可行性和优势,其中观测器提高了性能。为了进一步证明,还提供了与现有方法的比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Drones
Drones Engineering-Aerospace Engineering
CiteScore
5.60
自引率
18.80%
发文量
331
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