Open AccessFault Detection Filter Design for Stochastic Systems with Mixed Time-Delays and Parameter Uncertainties
Author(s) -
Liyuan Hou,
Shouming Zhong,
Hong Zhu,
Yong Zeng,
Lin Shi
Publication year - 2013
Publication title -
isrn applied mathematics
Language(s) - English
Resource type - Journals
eISSN - 2090-5572
pISSN - 2090-5564
DOI - 10.1155/2013/230158
Subject(s) - control theory (sociology) , fault detection and isolation , filter (signal processing) , residual , linear matrix inequality , filter design , lyapunov function , computer science , fault (geology) , stability theory , matrix (chemical analysis) , signal (programming language) , mathematics , mathematical optimization , nonlinear system , algorithm , control (management) , artificial intelligence , physics , materials science , quantum mechanics , seismology , actuator , composite material , computer vision , programming language , geology
This paper purposes the design of a fault detection filter for stochastic systems with mixed time-delays and parameter uncertainties. The main idea is to construct some new Lyapunov functional for the fault detection dynamics. A new robustly asymptotically stable criterion for the systems is derived through linear matrix inequality (LMI) by introducing a comprehensive different Lyapunov-Krasovskii functional. Then, the fault detection filter is designed in terms of linear matrix inequalities (LMIs) which can be easily checked in practice. At the same time, the error between the residual signal and the fault signal is made as small as possible. Finally, an example is given to illustrate the effectiveness and advantages of the proposed results.
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