不确定多输入多输出系统的自适应量化有限时间容错控制及其应用。

Yue Sun, Ming Chen, Yu-Lin Gai, Huan-Qing Wang, Kai-Xiang Peng, Li-Bing Wu
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引用次数: 0

摘要

文章针对存在执行器故障和输入量化的多输入多输出(MIMO)非线性系统提出了一种新型状态反馈控制方法。该设计方法的创新之处在于利用模糊逻辑系统(FLS)来逼近不确定的中间虚拟控制律,从而实现简化的虚拟控制设计形式。此外,还采用了有限时间控制来提高系统的响应速度。与现有文献不同的是,部分损失故障增益自适应控制方案与输入量化相结合,完成了未知增益估计,避免了未知控制增益的假设条件。理论分析结合 Lyapunov 稳定性分析表明,无论系统是否发生故障,跟踪误差都能收敛,同时闭环信号在有限时间内保持稳定约束。最后,四旋翼无人飞行器(UAV)姿态系统的仿真结果表明,该控制方案是有效的。
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Adaptive quantized finite-time fault-tolerant control for uncertain multi-input multi-output systems and its application.

The article proposes a novel state-feedback control method for a multiple-input multiple-output (MIMO) nonlinear system with actuator faults and input quantization. The innovation of the design approach lies in the utilization of fuzzy logic systems (FLSs) to approximate the uncertain intermediate virtual control laws, thereby achieving a simplified virtual control design form. Additionally, finite-time control is employed to enhance the system's response speed. Different from the existing literatures, the adaptive control scheme of partial loss fault gain is integrated with input quantization, which completes the unknown gain estimation and avoids the assumption condition of unknown control gain. The theoretical analysis combined with Lyapunov stability analysis shows that the tracking error can converge regardless of whether the system experiences a fault, while the closed-loop signal remains stably bounded for a finite time. Finally, the simulation results of the quadrotor unmanned aerial vehicle (UAV) attitude system indicate that this control scheme is effective.

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