D. Vukadinovic, M. Sma jo, and Lj. Kulisic


  1. [1] D.W. Novotny & T.A. Lipo, Vector control and dynamics of AC drives (New York: Oxford University Press, 1996).
  2. [2] E. Radwan, N. Mariun, I. Aris, S.M. Bash, & A.H. Yatim, IRFOC induction motor with rotor time constant estimation modelling and simulation, COMPEL: The International Journal for Computation and Mathematics in Electrical andElectronic Engineering, 24(4), 2005, 1093–1119.
  3. [3] B. Pryymak, J.M. Moreno-Eguilaz, & J. Peracaula, Neural network flux optimization using a model of losses in induction motor drives, Mathematics and Computers in Simulation, 71, 2006, 290–298.
  4. [4] E. Levi & M. Wang, Online identification of the mutual inductance for vector controlled induction motor drives, IEEE Transactions on Energy Conversion, 18(2), 2003, 299–305.
  5. [5] H.A. Toliyat, E. Levi, & M. Raina, A review of RFO induction motor parameter estimation techniques, IEEE Transactions on Energy Conversion, 18(2), 2003, 271–283.
  6. [6] P. Vas & M. Alakula, Field-oriented control of saturated induction machines, IEEE Transactions on Energy Conversion, 5(1), 1990, 218–224.
  7. [7] M. Smajo & D. Vukadinovic, Static characteristics of vector controlled asynchronous motor with saturation effect, The 18th International IASTED Conf. on Modelling, Identification and Control, Innsbruck, Austria, 1999, 277–279.
  8. [8] J.O. Ojo, A. Consoli, & T.A. Lipo, An improved model of saturated induction machines, IEEE Transactions on Industry Applications, 26(2), 1990, 212–221.
  9. [9] M. Tsuji, S. Chen, K. Izumi, & E. Yamada, A sensorless vector control system for induction motors using q-axis flux with stator resistance identification, IEEE Transactions on Industrial Electronics, 48(1), 2001, 185–194.
  10. [10] K. Ohyama & K. Shinohara, Small-signal stability analysis of vector control system of induction motor without speed sensor using synchronous current regulator, IEEE Transaction on Industry Applications, 36(6), 2000, 1669–1675.

Important Links:

Go Back