Interval Observer for Fault Identifi cation in Discrete-Time Dynamic Systems

A. Zhirabok, A. Zuev
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Abstract

The paper considers the problem of fault estimation (identification) in nonlinear discrete-time stationary systems described by linear dynamic models under external disturbances based on interval observers. To solve the problem, a reduced order model of the original system of minimal dimension than that of the original system insensitive or having minimal sensitivity to the external disturbances is designed. This model is based on diagonal Jordan canonical form allowing obtaining one-dimensional model. Based on this model, the interval observer is designed consisting of two subsystems. The first subsystem generates the lower bound of the set of admissible values of the prescribed function of the system state vector while the second system generates the upper bound. The relations describing such subsystems are derived. The prescribed function is such that forms one component of the system output vector containing the variable which is a result of the fault occurred in the system. This is necessary to introduce a feedback in the interval observer which is created by the estimated system output. Based on the interval observer description, the variable is introduced connecting the lower and upper bounds and real value of the prescribed function which can be measured. Based on the introduced variable, the relation connecting the lower and upper bounds and real value of the prescribed function in neighboring moments of time is constructed. This relation is based for fault estimation. Since measurement noises are absent and the reduced order model is insensitive to the disturbances, all obtained relations are precise, and the resulting formula for fault estimation is precise one as well. The theoretical results are illustrated by an example of electro actuator model where the value of fault is estimated. Simulation results based on the package Matlab show the effectiveness of the developed theory.
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用于离散时间动态系统故障识别的区间观测器
本文探讨了在基于区间观测器的外部扰动下,由线性动态模型描述的非线性离散时间静止系统的故障估计(识别)问题。为了解决这个问题,本文设计了一个最小维度的原始系统简化模型,该模型比对外部扰动不敏感或敏感度最小的原始系统模型的维度更小。该模型基于对角约旦规范形式,可获得一维模型。根据该模型,设计了由两个子系统组成的区间观测器。第一个子系统生成系统状态矢量的规定函数可容许值集合的下限,而第二个系统生成上限。描述这种子系统的关系是推导出来的。规定函数构成系统输出矢量的一个分量,其中包含系统故障导致的变量。这对于在区间观测器中引入由估计的系统输出所产生的反馈是必要的。根据区间观测器的描述,引入变量连接可测量的规定函数的上下限和实值。根据引入的变量,构建了连接相邻时刻的下限和上限以及规定函数实值的关系。这种关系是故障估计的基础。由于不存在测量噪声,且降阶模型对干扰不敏感,因此所有得到的关系都是精确的,由此得到的故障估计公式也是精确的。理论结果通过一个估计故障值的电动推杆模型实例进行了说明。基于 Matlab 软件包的仿真结果表明了所开发理论的有效性。
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来源期刊
Mekhatronika, Avtomatizatsiya, Upravlenie
Mekhatronika, Avtomatizatsiya, Upravlenie Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
68
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