Abstract
Consideration was given to diagnosis of engineering systems described by nonlinear dynamic models and operating in a destabilizing environment. A method of designing the mismatch generator on the basis of adaptive parity relations generated in real time by processing current controls and outputs of the diagnosed system was proposed. Robustness of the diagnostic procedures is provided by adaptation to slowly varying system parameters and use of the optimization approach.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
REFERENCES
Chow, E.Y. and Willsky, A.S., Analytical Redundancy and the Design of Robust Failure Detection Systems, IEEE Trans.Autom.Control, 1984, vol. AC-29, no. 7, pp. 603-614.
Lou, X.C., Willsky, A.S., and Verghese, G.L., Optimally Robust Redundancy Relations for Failure Detection in Uncertain Systems, Automatica, 1986, vol. 22, no. 3, pp. 333-344.
Frank, P.M., Fault Diagnosis in Dynamic Systems Using Analytical and Knowledge-based Redundancy—A Survey and Some New Results, Automatica, 1990, vol. 26, no. 3, pp. 459-474.
Gertler, J. and Kunwer, M.M., Optimal Residual Decoupling for Robust Fault Diagnosis, Proc.Int.Conf.TOOLDIAG'93, Toulouse, France, 1993, pp. 436-453.
Dingly, Yu. and Shields, D.N., Fault Diagnosis in Bilinear Systems—A Survey, Proc.3th ECC, 1995, pp. 360-365.
Seliger, R. and Frank, P.M., Fault Diagnosis by Disturbance Decoupling Nonlinear Observers, Proc.30th IEEE CDC, 1991, pp. 2248-2253.
Ding, X. and Frank, P.M., An Adaptive Observer-based Fault Detection Scheme for Nonlinear Dynamic Systems, Proc.12th World IFAC Congr., 1993, vol. 6, pp. 307-310.
Shumskii, A.E., Detection of Faults in Nonlinear Systems by Means of Funcitonal Diagnosis, Avtom.Telemekh., 1991, no. 12, pp. 148-155.
Mironovskii, L.A., Functional Diagnosis of Nonlinear Dynamic Plants, Avtom.Telemekh., 1989, no. 6, pp. 150-157.
Shumskii, A.E., Funcitonal Diagnosis of Dynamic Systems under Parametric Uncertainty of the Model, Avtom.Telemekh., 1994, no. 3, pp. 184-188.
Seliger R. and Frank P.M., Robust Residual Evaluation by Threshold Selection and Performance Index for Nonlinear Observer-based Fault Diagnosis, Proc.Int.Conf.Fault Diagnosis, TOOLDIAG'93, 1993, pp. 456-504.
Shumskii, A.E., Method of Parity Relations and Its Application to Monitoring Operation of Nonlinear Dynamic Systems, Avtom.Telemekh., 1998, no. 9, pp. 155-165.
Ingenbleek R., Transformation of Nonlinear Discrete-Time Systems into Observer Canonical Form, Proc.12th World IFAC Congr., 1993, vol. 4, pp. 347-350.
Zhirabok, A.N. and Shlikht, A.G., An Algebraic Approach to Analysis of Observability of Discrete Systems, Tekh.Kibern., 1992, no. 4, pp. 113-119.
Voevodin, V.V. and Kuznetsov Yu.A., Matritsy i vychisleniya (Matrices and Calculations), Moscow: Nauka, 1984.
Ljung, L., System Identification: Theory for the User, Englewood Cliffs: Prentice Hall, 1987. Translated under the title Identifikatsiya sistem.Teoriya dlya pol'sovatelya, Moscow: Nauka, 1991.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Zhirabok, A.N., Shumskii, A.E. Diagnosis of Nonlinear Dynamic Systems: Adaptive Parity Relations. Automation and Remote Control 63, 1821–1831 (2002). https://doi.org/10.1023/A:1020911616638
Issue Date:
DOI: https://doi.org/10.1023/A:1020911616638