B. Hemici, L. Nezli, M. Tadjine, and M.S. Boucherit
[1] M. Kristic, I. Kanellakopoulous, & P.V. Kokotovic, Nonlinearand adaptive control (New York: Wiley, 1995). [2] 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 [3] P. Pillay & R. Krishnan, Modeling simulation and analysisof permanent magnet motor drive, Part 1: The permanentmagnet synchronous motor drive, IEEE Trans. on IndustryApplications, 28 (19), 1989, 265–273. doi:10.1109/28.25541 [4] P.C. Krause, Analysis of electric machinery (New York:McGraw-Hill, 1986). [5] M. Tursini, F. Parasiliti, & D. Zhang, Real time gain tuningof PI controllers for high performance PMSM drives, IEEETrans. on Industry Applications, 38 (4), 2002, 1018–1026. doi:10.1109/TIA.2002.800564 [6] K.I. Saleh, O.A. Mohammed, & M.A. Badr, Field orientedvector control of synchronous motors with additional fieldwinding, IEEE Trans. on Energy Conversion, 19 (1), 2004,95–101. doi:10.1109/TEC.2003.821836 [7] M. Bodson & J. Chiasson, Differential geometric methods forcontrol of electric motors, International Journal of RobustNonlinear Control, 8, 1998, 923–954. doi:10.1002/(SICI)1099-1239(199809)8:11<923::AID-RNC369>3.0.CO;2-S [8] K.H. Kim & M.J. Youn, A nonlinear speed control of PMsynchronous motor using a simple disturbance estimation technique, IEEE Trans. on Industrial Electronics, 49 (3), 2002,524–535. doi:10.1109/TIE.2002.1005377 [9] M. Vilathgamuwa, M.A. Rahmab, & K.J. Tseng, Nonlinearcontrol of interior permanent magnet synchronous motor, Proc.IEEE Industry Applications Conf., Rome, Italy, 2000, 1115–1120. [10] J.X. Xu, Q.W. Jia, & T.H. Lee, Analysis of adaptive robustbackstepping control schemes for PM synchronous motors,Proc. IEEE Conf. on Decision and Control, Kobe, Japan,1996, 3516–3521. doi:10.1109/CDC.1996.573714 [11] F.J. Lin & S.L. Chiu, Adaptive fuzzy sliding mode controlfor PM synchronous servo motor drives, IEE Proc. ControlTheory and Application, 145 (1), 1998, 63–72. doi:10.1049/ip-cta:19981683 [12] J. Zhou & Y. Wang, Adaptive backstepping speed controllerdesign for permanent magnet synchronous motor, IEE Proc.Electric Power Application, 149 (2), 2002, 165–170. doi:10.1049/ip-epa:20020187 [13] F.J. Lin, S.L. Chiu, & K.K. Shyu, Adaptive control of PMsynchronous motor drive using VSS approach, Proc. IEEE22nd IECON Conf., Taipi, Taiwan, 1996, 1740–1745. [14] M.E. Elbuluk, L. Tong, & I. Hussian, Neural network basedmodel reference adaptive systems for high performance motordrives and motions control, IEEE Trans. on Industry Appli-cations, 38 (3), 2002, 879–886. doi:10.1109/TIA.2002.1003444 [15] M.A. Abido, M. Nasir Uddin, & M.A. Rahman, A new fuzzylogic controller based IPM synchronous motor drive, Proc.IEEE Electric Machines and Drives Conf., Madison, WI, USA,2003, 1795–1801. [16] N. Nasir Uddin, M.A. Abido, & M. Azizur Rahman, Development and implementation of a hybrid intelligent controllerfor IPM synchronous motor drive, IEEE Trans. on IndustryApplications, 40 (1), 2004, 68–76. doi:10.1109/TIA.2003.821797 [17] F.J. Lin & C.H. Lin, A permanent magnet synchronous motorservo drive using self constructing fuzzy NN controller, IEEETrans. on Energy Conversion, 19 (1), 2004, 66–72. doi:10.1109/TEC.2003.821835 [18] I. Zulkifili & E. Levi, A comparative analysis of fuzzy logicand PI speed control in high performance AC drives usingexperimental approach, IEEE Trans. on Industry Applications,38 (5), 2002, 1210–1218. doi:10.1109/TIA.2002.802993 [19] M.T. Hou & C.Y. Lin, PID controller design for robustperformance, IEEE Trans. on Automatic Control, 48 (8), 2003,1404–1409. doi:10.1109/TAC.2003.815028 [20] B. Amstrong, D. Neevel, & T. Kusik, New results in NPIDcontrol tracking, integral control, friction compensation andexperimental results, IEEE Trans. on Control Systems Tech-nology, 9 (2), 2001, 399–406. doi:10.1109/87.911392 [21] J.J.E. Slotine & W. Li, Applied nonlinear control (EnglewoodCliffs, NJ: Prentice-Hall, 1991).
Important Links:
Go Back