Document Type

Conference Item

Publication Date

1-1-2002

Abstract

The development of a multivariable system identification model for dynamic discrete-time nonlinear system using genetic algorithm was discussed and analysed. The identification of model structure for a jacketed continuous stirred tank reactor or CSTR was taken as case study. The analysis showed that the proposed genetic algorithm provides an efficient way of determining the model structure of unknown nonlinear systems.

Keywords

Genetic algorithm, Model structure selection, Multivariable system, System identification, Chemical reactors, Computational methods, Genetic algorithms, Identification (control systems), Mathematical models, Nonlinear control systems, Single-input single-output (SISO) systems, Discrete time control systems.

Divisions

fac_eng

Volume

5

Event Title

2002 IEEE International Conference on Systems, Man and Cybernetics

Event Location

Yasmine Hammamet

Event Dates

2002

Event Type

conference

Additional Information

Conference code: 60870 Cited By (since 1996): 1 Export Date: 5 March 2013 Source: Scopus CODEN: PICYE Language of Original Document: English Correspondence Address: Ahmad, R.; Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 Skudai, Johor, Malaysia; email: robiah@fkm.utm.my References: Leontaritis, I.J., Billings, S.A., Input-output parameter models for nonlinear system. Part 1: Deterministic non-linear system (1988) Int. Journal of Control, 4 (1), pp. 193-210; Haber, R., Unbehauen, H., Structure identification of nonlinear dynamic systems - A survey on input/output approaches (1990) Automatica, 26, pp. 651-677; Korenberg, M., Billings, S.A., Liu, Y.P., McIlroy, P.J., Orthogonal parameter estimation algorithm for non-linear stochastic systems (1988) Int. Journal of Control, 48 (1), pp. 193-210; Billings, S.A., Fadzil, M.B., The practical identification of systems with nonlinearities (1985) Proc. 7 th IFAC Symposium on Identification and System Parameter Estimation, pp. 155-160. , York, UK; Chen, S., Billings, S.A., Luo, W., Orthogonal least square methods and their applications to non-linear system identification (1989) Int. Journal of Control, 50 (5), pp. 1873-1896; Chaiyaratana, N., Zalzala, A.M.S., Recent developments in evolutionary and genetic algorithms: Theory and application (1997) Conf. on Genetic Algorithms in Engineering Systems: Innovation and Applications, (446), pp. 270-277; Michalewicz, Z., (1992) Genetic Algorithms + Data Structures = Evolution Programs, , New York: Springer-Verlag; Li, C.J., Jeon, Y.C., Genetic algorithm in identifying nonlinear autoregressive moving average with exogenous input models for non linear systems (1993) Proc. of the American Control Conference, pp. 2305-2309. , San Francisco, California; Luh, G.G., Rizzoni, G., Nonlinear system identification using genetic algorithms with application to feedforward control design (1998) Proc. of the American Control Conference, pp. 2371-2375. , Philadelphia, Pennsylvania; Tan, K.C., Li, Y., Murray-Smith, D.J., Sharman, K.C., System identification and linearisation using genetic algorithms with simulated annealing (1995) First IEE/IEEE Int. Conf. Of Genetic Algorithms in Engineering Systems: Innovation and Application, pp. 164-169. , Sheffield, UK; Zibo, Z., Naghdy, F., Application of genetic algorithms to system identification (1995) IEEE Int. Conf. on Evolutionary Computation, 2, pp. 777-787; Söderstrom, T., Stoica, P., (1989) System Identification, , Englewood Cliffs, NJ: Prentice-Hall; Billings, S.A., Chen, S., Korenberg, M.J., Identification of MIMO non-linear systems using a forward-regression orthogonal estimator (1989) Int. Journal of Control, 50 (6), pp. 2157-2189; Wahab, K.A., Hussain, M.A., Sulaiman, M.Z., Temperature control for chemical reactor using adaptive neural network control strategy (2000) TENCON 2000, , 25-27 September, Kuala Lumpur, Malaysia; Eiben, A.E., Hinterding, R., Michalewicz, Z., Parameter control (2000) Evolutionary Computation 2: Advanced Algorithms and Operators, , (Eds) T. Back, D. B. Fogel and Z. Michalewicz, Bristol, UK: Institute of Physics Publishing

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