Lyapunov-based Cascaded Nonlinear Control of Induction Machine

H. Chekireb and M. Tadjine

References

  1. [1] M. Krstic, I. Kanellakopoulos, & P. V. Kokotovic, Nonlinearand adaptive control (New York: Wiley, 1995).
  2. [2] M. Jankovic, R. Sepulchre, & P.V. Kokotovic, Global stabi-lization of an enlarged class of cascaded non-linear systems,Proc. 34 th IEEE Conf. on Decision & Control, Los Angeles,CA, 1995, 993–998. doi:10.1109/CDC.1995.480216
  3. [3] E.D. Sontag, Further facts about input to state stabilization,IEEE Trans. on Automatic Control, 35, 1991, 473–476. doi:10.1109/9.52307
  4. [4] M. Marta Seron & D. J. Hill, Input-output and input-to-state stabilization of cascaded nonlinear systems, Proc. 34 thIEEE Conf. on Decision & Control, Los Angeles, CA, 1995,4259–4264. doi:10.1109/CDC.1995.478908
  5. [5] E. Panteley, Global uniform asymptotic stability of cascadetime-varying nonlinear systems: Case study, Proc. 35 th IEEEConf. on Decision & Control, Kobe, Japan, 1996, 590–591. doi:10.1109/CDC.1996.574387
  6. [6] Z.P. Jiang, D.J. Hill, & A.L. Fradkov, Adaptive passificationof interconnected nonlinear systems, Proc. 35 th IEEE Conf.on Decision & Control, Kobe, Japan, 1996, 1945–1946. doi:10.1109/CDC.1996.572863
  7. [7] M. Dalsmo & W.C.A. Mass, Singular H∝ suboptimal controlfor a class of two-block interconnected nonlinear systems, Proc.35 th IEEE Conf. on Decision & Control, Kobe, Japan, 1996,3782–3787. doi:10.1109/CDC.1996.577238
  8. [8] W. Leonhard, 30 years space vectors, 20 years field orientation,10 years digital signal processing with controlled AC drives,EPE journal, 1 (1), 1991, 89–102.
  9. [9] Kubota, H. Matsasue, & K. Nakano, Speed sensorless fieldoriented control of induction motor with rotor resistance adap-tation, IEEE Trans. on Industry Applications, 30 (5), 1994,1219–1224. doi:10.1109/28.315232
  10. [10] G. Chang, G. Espinosa, E. Mendes, & R. Ortega, On FOC ofinduction motor tuning the PI gains for performance enhance-ment, IEEE Trans. on Industrial Electronics, 47 (3), 2000,592–602. doi:10.1109/41.847900
  11. [11] R. Marino, S. Peresada, & P. Vagili, Adaptive input-outputlinearizing control of induction motors, IEEE Trans. on Auto-matic Control, 40 (1), 1993, 138–143. doi:10.1109/9.250510
  12. [12] G. Espinosa & R. Ortega, An output feedback globally stablecontroller for induction motors. IEEE Trans. on AutomaticControl, 38 (11), 1995, 1675–1679. doi:10.1109/9.362883
  13. [13] P.J. Nicklasson, R. Ortega, & G. Espinoza-Perez, Passivitybased control of a class of Blondel-Park transformable electricmachines, IEEE Trans. on Automatic Control, 42 (1), 1997,648–658. doi:10.1109/9.580867
  14. [14] C. Cecati & N. Rotondale, Torque and speed regulation ofinduction motors using passivity theory approach, IEEE Trans.on Industrial Electronics, 46 (1), 1999, 23–36. doi:10.1109/41.744372
  15. [15] O. Ortege, V. Pertrovic, & A. Stankovic, Extending passiv-ity based control beyond mechanics: A synchronous motorexample, Automatisierungstechnik, 48 (3), 2000, 106–602. doi:10.1524/auto.2000.48.3.106
  16. [16] V.I. Utkin, Sliding mode control design principles and applica-tions to electric drives, IEEE Trans. on Industrial Electronics,40 (1), 1993, 23–36. doi:10.1109/41.184818
  17. [17] A. Benchaib, A. Rachid, E. Audrezet, & M. Tadjine, Realtime sliding mode observer and control of an induction motor,IEEE Trans. on Industrial Electronics, 46 (1), 1999, 128–138. doi:10.1109/41.744404
  18. [18] T. Floquet, J.P. Barbot, & W. Perruquetti, Second ordersliding mode control for induction motor, IEEE CDC’2000,Sydney, Australia, December 2000, 1691–1696.8
  19. [19] R. Hadjar, R. Toumi, P. Boucher, & D. Dumur, Cascadednonlinear predictive control of induction motor, Proc. 9 thIEEE Conf. on Control Applications, Anchorage, Alaska, 2000,698–703.
  20. [20] H. Rasmussen, P. Vadstrup, & H. Borsting, Nonlinear fieldoriented control of induction motors using the backsteppingdesign, Proc. 5th European Control Conf., Karlshue, Germany,1999.
  21. [21] H. Rasmussen, P. Vadstrup, & H. Borsting, Backsteppingstrategy for induction motor control, Proc. of NORPIE2000,Aalborg, Denmark, 2000.
  22. [22] Pillay & R. Krishnan, Modeling of permanent magnet motordrives, IEEE Trans. on Industrial Electronics, 38 (4), 1988,537–541. doi:10.1109/41.9176
  23. [23] P. Pillay & R. Krishnan, Modeling, simulation, and analysisof permanent magnet motor drives, Part I: The permanentmagnet synchronous motor drive, IEEE Trans. on IndustryApplications, 28 (19), 1989, 265-273. doi:10.1109/28.25541

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