Filter-based FDD using PDFs for stochastic systems with time delays

Yu Min Zhang; Lei Guo; Hong Wang

Filter-based FDD using PDFs for stochastic systems with time delays

Yu Min Zhang, Lei Guo, Hong Wang

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

In this paper, a fault detection and diagnosis (FDD) scheme is presented for general stochastic dynamic systems with time delays. Originated from some practical processes, it is supposed that the measured information is the probability density function (PDF) of the system output rather than its actual value, which is different from the classical FDD problem. A B-spline expansion technique is applied so that the output PDF can be formulated in terms of the dynamic weights of the B-spline expansion. This leads to a dynamic model between the input and the weights where nonlinearities, uncertainties and time delays are included. As a result, the concerned FDD problem is transformed into a classic nonlinear FDD problem subject to an uncertain nonlinear system with time delays. Feasible criteria to detect the system fault are obtained and an adaptive fault diagnosis method is further presented to produce an estimate of the size of fault. Simple simulations are given to demonstrate the efficiency of the proposed approach. ©2005 AACC.

Original language	English
Title of host publication	Proceedings of the American Control Conference\|Proc Am Control Conf
Pages	1660-1665
Number of pages	5
Volume	3
Publication status	Published - 2005
Event	2005 American Control Conference, ACC - Portland, OR Duration: 1 Jul 2005 → …

Conference

Conference	2005 American Control Conference, ACC
City	Portland, OR
Period	1/07/05 → …

Cite this

@inproceedings{09ffde2dc49a4829b209273b3efcca34,

title = "Filter-based FDD using PDFs for stochastic systems with time delays",

abstract = "In this paper, a fault detection and diagnosis (FDD) scheme is presented for general stochastic dynamic systems with time delays. Originated from some practical processes, it is supposed that the measured information is the probability density function (PDF) of the system output rather than its actual value, which is different from the classical FDD problem. A B-spline expansion technique is applied so that the output PDF can be formulated in terms of the dynamic weights of the B-spline expansion. This leads to a dynamic model between the input and the weights where nonlinearities, uncertainties and time delays are included. As a result, the concerned FDD problem is transformed into a classic nonlinear FDD problem subject to an uncertain nonlinear system with time delays. Feasible criteria to detect the system fault are obtained and an adaptive fault diagnosis method is further presented to produce an estimate of the size of fault. Simple simulations are given to demonstrate the efficiency of the proposed approach. {\textcopyright}2005 AACC.",

author = "Zhang, {Yu Min} and Lei Guo and Hong Wang",

year = "2005",

language = "English",

volume = "3",

pages = "1660--1665",

booktitle = "Proceedings of the American Control Conference|Proc Am Control Conf",

note = "2005 American Control Conference, ACC ; Conference date: 01-07-2005",

}

TY - GEN

T1 - Filter-based FDD using PDFs for stochastic systems with time delays

AU - Zhang, Yu Min

AU - Guo, Lei

AU - Wang, Hong

PY - 2005

Y1 - 2005

N2 - In this paper, a fault detection and diagnosis (FDD) scheme is presented for general stochastic dynamic systems with time delays. Originated from some practical processes, it is supposed that the measured information is the probability density function (PDF) of the system output rather than its actual value, which is different from the classical FDD problem. A B-spline expansion technique is applied so that the output PDF can be formulated in terms of the dynamic weights of the B-spline expansion. This leads to a dynamic model between the input and the weights where nonlinearities, uncertainties and time delays are included. As a result, the concerned FDD problem is transformed into a classic nonlinear FDD problem subject to an uncertain nonlinear system with time delays. Feasible criteria to detect the system fault are obtained and an adaptive fault diagnosis method is further presented to produce an estimate of the size of fault. Simple simulations are given to demonstrate the efficiency of the proposed approach. ©2005 AACC.

AB - In this paper, a fault detection and diagnosis (FDD) scheme is presented for general stochastic dynamic systems with time delays. Originated from some practical processes, it is supposed that the measured information is the probability density function (PDF) of the system output rather than its actual value, which is different from the classical FDD problem. A B-spline expansion technique is applied so that the output PDF can be formulated in terms of the dynamic weights of the B-spline expansion. This leads to a dynamic model between the input and the weights where nonlinearities, uncertainties and time delays are included. As a result, the concerned FDD problem is transformed into a classic nonlinear FDD problem subject to an uncertain nonlinear system with time delays. Feasible criteria to detect the system fault are obtained and an adaptive fault diagnosis method is further presented to produce an estimate of the size of fault. Simple simulations are given to demonstrate the efficiency of the proposed approach. ©2005 AACC.

M3 - Conference contribution

VL - 3

SP - 1660

EP - 1665

BT - Proceedings of the American Control Conference|Proc Am Control Conf

T2 - 2005 American Control Conference, ACC

Y2 - 1 July 2005

ER -

Filter-based FDD using PDFs for stochastic systems with time delays

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