MULTIPLE MODEL AND MULTIPLE CONTROL APPROACHES: APPLICATION TO A SEMI-BATCH REACTOR

F. M’Sahli,∗ C. Fayeche,∗∗ and R.B. Abdennour∗∗

References

  1. [1] B.W. Bequette, Non-linear control of chemical processes: A review, Industrial Engineering Chemical Research, 30, 1991, 1391–1413.
  2. [2] R. Berber (Ed.), Control of batch reactor: A review, in Methods of Model Based Predictive Control (Dordrecht: Kluwer Academic Publications, 1995), 459–494.
  3. [3] E.S. Meadows & J.B. Rawlings, Simultaneous model identification and control of semi-batch chemical reactor, American Control Conference preprint, 1990.
  4. [4] F. M’Sahli, R.B. Abdennour, & M. Ksouri, Experimental non linear model based predictive control for a class of semi-batch reactors, International Journal of Advanced Manufacturing Technology, 20(6), 2002, 459–463.
  5. [5] G. Defaye, N. Regnier, J. Chabanon, L. Caralp, & C. Vidal, Adaptive-predictive temperature control of a semi-batch reactor, Chemical Engineering Sciences, 48(19), 1993, 3373–3382.
  6. [6] C. Kravaris, R.A. Wright, & J.F. Carrier, Non linear controllers for trajectory tracking in batch processes, Computer Chemical Engineering, 13, 1989, 73–82.
  7. [7] F. M’Sahli, C. Fayeche, R.B. Abdennour, & M. Ksouri, Application of adaptative controllers for the temperature control of a semi-batch reactor, International Journal of Computational Engineering Science, 2(2), 2001, 287–307.
  8. [8] V. Petridis & A. Kehagias, A multi-model algorithm for parameter estimation of time-varying nonlinear systems, Automatica, 34(4), 1998, 469–475.
  9. [9] S. Mezghani, A. Elkamel, & P. Borne, Multimodel control of discrete systems with interval plants, I.S.I.A.C Third International Symp. on Intelligent Automation and Control, WAC’2000, Hawai, 2000.
  10. [10] R. Shorten, R. Murray-Smith, R. Bjorgan, & H. Gollee, On the interpretation of local models in blended multiple model structure, International Journal of Control, 72(7/8), 1999, 620–628.
  11. [11] D.J. Leith & W.E. Leithead, Analytic framework for blended multiple model systems using local models, International Journal of Control, 72(7/8), 1999, 605–619.
  12. [12] K.S. Narendra & J. Balakrishnan, Adaptive control using multiple models, IEEE Transactions on Automatic Control, 42(2), 1997, 1123–1132.
  13. [13] R.M. Smith & T.A. Johansen, Multiple Model approaches to modelling and Control (London: Taylor & Francis Publishers, 1997).
  14. [14] F. M’Sahli, R.B. Abdennour, & M. Ksouri, Non-linear modelbased predictive control using a generalized Hammerstein model and its application to a semi-batch reactor, International Journal of Advanced Manufacturing Technology, 20(11), 2002, 844–852.
  15. [15] F. M’Sahli, R.B. Abdennour, & M. Ksouri, Non-linear adaptive predictive control based on a parametric volterra model, Journal of Control and Intelligent Systems, 29(3), 2001, 91–100.
  16. [16] D. Bonvin, P. De Valli`ere, & D.W.T. Rippin, Application of estimation techniques to batch reactors, I: Modeling thermal effects, Computers Chemical Engineering, 13, 1989, 1–9.

Important Links:

Go Back