Fault Diagnosis and Fault-Tolerant Control of Wind Turbines via a Discrete Time Controller with a Disturbance Compensator

Christian Tutiv#xE9; n; Frede Blaabjerg; Jos#xE9; Rodellar; Leonardo Acho; Yolanda Vidal

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Fault Diagnosis and Fault-Tolerant Control of Wind Turbines via a Discrete Time Controller with a Disturbance Compensator

机译：通过带有扰动补偿器的离散时间控制器对风力发电机组进行故障诊断和容错控制

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This paper develops a fault diagnosis (FD) and fault-tolerant control (FTC) of pitch actuators in wind turbines. This is accomplished by combining a disturbance compensator with a controller, both of which are formulated in the discrete time domain. The disturbance compensator has a dual purpose: to estimate the actuator fault (which is used by the FD algorithm) and to design the discrete time controller to obtain an FTC. That is, the pitch actuator faults are estimated, and then, the pitch control laws are appropriately modified to achieve an FTC with a comparable behavior to the fault-free case. The performance of the FD and FTC schemes is tested in simulations with the aero-elastic code FAST.

机译：本文开发了风力发电机变桨致动器的故障诊断（FD）和容错控制（FTC）。这是通过将干扰补偿器与控制器相结合来实现的，二者均在离散时域中制定。干扰补偿器具有双重目的：估计执行器故障（由FD算法使用），并设计离散时间控制器以获得FTC。即，估计俯仰致动器故障，然后适当地修改俯仰控制律以实现具有与无故障情况相当的性能的FTC。 FD和FTC方案的性能已通过航空弹性代码FAST在仿真中进行了测试。

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《Energies》 |2015年第5期|共17页
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Christian Tutiv#xE9; n; Frede Blaabjerg; Jos#xE9; Rodellar; Leonardo Acho; Yolanda Vidal;
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1. Wind Turbine Fault Diagnosis and Fault-Tolerant Torque Load Control Against Actuator Faults [J] . Badihi Hamed, Zhang Youmin, Hong Henry Control Systems Technology, IEEE Transactions on . 2015,第4期

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2. Linear discrete-time modelling and hybrid fault-tolerant controller design for complex systems with component and sensor faults [J] . He Chunxiao, Li Xisheng International Journal of Modelling, Identification and Control . 2020,第4期

机译：具有组件和传感器故障的复杂系统的线性离散时间建模和混合容错控制器设计
3. Fault diagnosis and fault-tolerant tracking control for discrete-time systems with faults and delays in actuator and measurement [J] . Han Shi-Yuan, Chen Yue-Hui, Tang Gong-You Journal of the Franklin Institute . 2017,第12期

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4. Anti-disturbance fault-tolerant control for discrete-time switched systems with multiple disturbance [C] . Linlin Hou, Haibin Sun Chinese Automation Congress . 2017

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5. A real-time manufacturing information exchange application between programmable logic controllers over a fault-tolerant network. [D] . Caban-Lopez, Alipio. 2004

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6. Trust-based fault detection and robust fault-tolerant control of uncertain cyber-physical systems against time-delay injection attacks [O] . Salman Baromand, Amirreza Zaman, Lyudmila Mihaylova 2021

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7. Fault Diagnosis and Fault-Tolerant Control of Wind Turbines via a Discrete Time Controller with a Disturbance Compensator [O] . Yolanda Vidal, Christian Tutivén, José Rodellar, 2015

机译：基于扰动补偿器的离散时间控制器对风力机故障诊断和容错控制
8. Digital Computer Implementation of a Discrete-Time Disturbance-Accommodating Controller (DAC) for a General First-Order Plant with First-Order Disturbance [R] . Isom, L. S. 1980

机译：用于具有一阶扰动的一般一阶设备的离散时间扰动容纳控制器（DaC）的数字计算机实现

Fault Diagnosis and Fault-Tolerant Control of Wind Turbines via a Discrete Time Controller with a Disturbance Compensator

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