Faulty System Reconfiguration Based on Logic-Dynamic Approach

A. Zhirabok, A. Shumsky, E. Bobko, A. Zuev

Abstract


The problem of faulty system recon?guration in nonlinear dynamic systems is considered. Solution of the problem is related to constructing the control law which provides full decoupling with respect to fault effects. The logic-dynamic approach is used to solve the problem. The main features of this approach are: it involves known linear methods that results in possibility to solve the system recon?guration problem by existing programming systems without using the symbolic software and it can be applied both to discrete-time and continuous-time systems. Existing conditions are formulated and calculating relations are given for the control law. Theoretical results are illustrated by example.

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Zhirabok A.N., Kucher D.N., Filaretov V.F. Achieving robustness at diagnosis of nonlinear systems [Obespechenie robastnosti pri diagnostirovanii nelineynykh system], Avtomatika i telemekhanika [Automation and Remote Control], 2010. Vol.71, No.1, pp. 142-155. (in Russ.). DOI: 10.1134/S000511791001011X

Zhirabok A.N., Shumsky A.E. Algebraicheskie metody analiza nelineynykh dinamicheskikh sistem: monografiya [Algebraic methods for analyzing nonlinear dynamical systems: monograph], Vladivostok, Dal'nauka, 2008, 232 p. (in Russ.)

Alcorta-Garcia E., Frank P. Deterministic nonlinear observer-based approach to fault diagnosis: A survey, Control Engineering Practice, 1997, vol.5, pp. 663-670. DOI: 10.1016/S0967-0661(97)00048-8

Blanke M., Kinnaert M., Lunze J., Staroswiecki M. Diagnosis and Fault Tolerant Control, Berlin, Springer-Verlag, 2003, 571 p. DOI: 10.1007/978-3-662-05344-7

Bobko E., Zhirabok A., Shumsky A. Fault accommodation methods in technical systems, Computer and Systems Sciences International, 2016, vol.55, pp. 735-749. DOI: 10.1134/S1064230716050038

Jiang B., Staroswiecki M., Cocquempot V. Fault accommodation for nonlinear dynamic systems, IEEE Transactions on Automatic Control, 2006, vol.51, pp. 1578-1583. DOI: 10.1109/TAC.2006.878732

Frank P. Fault diagnosis in dynamic systems using analytical and knowledge-based redundancy. A survey and some new results, Automatica, 1990, vol.26, pp. 459-474. DOI: 10.1016/0005-1098(90)90018-D

Kaldmae A., Kotta U., Shumsky A., Zhirabok A. Faulty plant reconfiguration based on disturbance decoupling methods, Asian Journal of Control, 2016, vol.8, pp. 858-867.

Staroswiecki M. Fault tolerant control: the pseudo-inverse method revisited, CD-ROM Proc. 16th IFAC Congress, Prague, 2005. DOI: 10.3182/20050703-6-CZ-1902.01872

Staroswiecki M., Yang H., Jiang B. Progressive accommodation of aircraft actuator faults, Proc. IFAC Symp. Safeprocess, 2006, pp. 877-882. DOI: 10.3182/20060829-4-CN-2909.00137

Weng Z., Patton R., Cui P. Active fault tolerant control of a double inverted pendulum, Proc. IFAC Symp. Safeprocess, 2006, pp. 1591-1596. DOI: 10.1016/B978-008044485-7/50254-2

Zhirabok A., Usoltsev S. Fault diagnosis in nonlinear dynamic systems via linear methods, CD ROM Proc. 15th IFAC World Congress, Barcelona, 2002.

Zhirabok A., Shumsky A. Logic-Dynamic Approach to the Robust Fault Diagnosis in Nonlinear Systems, Proc. 2013 Conf. on Control and Fault Tolerant Systems, Nice, 2013, pp. 190-195. DOI: 10.1109/SysTol.2013.6693816




DOI: http://dx.doi.org/10.24892/RIJIE/20170208

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