Integrated design of robust fault estimation and fault-tolerant control for linear systems

2015 54th IEEE Conference on Decision and Control (CDC) Pub Date : 2015-12-01 DOI:10.1109/CDC.2015.7403018

Jianglin Lan, R. Patton

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引用次数: 6

Abstract

In the fault tolerant control (FTC) problem based on fault compensation a bi-directional uncertainty coupling exists between the controller and the joint state/fault estimation. This coupling arises from (a) the model mismatch between the system dynamics and the observer model as well as (b) the uncertainty arising from imperfect fault estimation. Hence, this paper deals with an approach to integrate together the designs of the observer and controller for a linear system subject to bounded actuator and sensor faults as well as disturbance. The fault estimation is achieved by using an augmented state form of an unknown input observer (UIO) which relaxes the well-known UIO rank restriction in terms the system coefficient matrices. The integrated design problem with fault compensation is an observer-based robust control system solved via H∞ optimization using single-step LMI formulation. The closed-loop system time response is improved using LMI regional pole placement. The FTC performance is illustrated using an example with both sensor and actuator faults as well as disturbance and uncertainty.

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线性系统鲁棒故障估计与容错控制的集成设计

在基于故障补偿的容错控制问题中，控制器与联合状态/故障估计之间存在双向不确定性耦合。这种耦合来自(a)系统动力学和观测器模型之间的模型不匹配以及(b)不完全故障估计引起的不确定性。因此，本文研究了一种将有界执行器和传感器故障以及干扰的线性系统观测器和控制器设计集成在一起的方法。故障估计是通过使用未知输入观测器(UIO)的增广状态形式来实现的，该形式放松了众所周知的未知输入观测器在系统系数矩阵方面的秩限制。带故障补偿的集成设计问题是一个基于观测器的鲁棒控制系统，采用单步LMI公式通过H∞优化求解。采用LMI区域极点配置改善了闭环系统的时间响应。用一个具有传感器和执行器故障以及干扰和不确定性的例子来说明FTC的性能。

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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2015 54th IEEE Conference on Decision and Control (CDC)

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