Articles dans des revues avec comité de lecture (122)
  1. 60. Alberti, L., Bianchi, N., Morandin, M., & Gyselinck, J. (2014). Finite-element analysis of electrical machines for sensorless drives with high-frequency signal injection. IEEE transactions on industry applications, 50(3), 6634231, 1871-1879. doi:10.1109/TIA.2013.2285957
  2. 61. Meinguet, F., Semail, E., Kestelyn, X., Mollet, Y., & Gyselinck, J. (2014). A change-detection algorithm for short-circuit fault detection in closed-loop AC drives. I E T Electric Power Applications, 8(5), 165-177. doi:10.1049/iet-epa.2012.0316
  3. 62. Fabio, D. S., Jan, A., F., N., Gyselinck, J., van der Auweraer, H., & Luiz, G. (2014). Multiphysics NVH modeling: simulation of a switched reluctance motor drivetrain for an electric vehicle. IEEE transactions on industrial electronics, 61(1), 469-476.
  4. 63. Sabariego, R., Geuzaine, C., Dular, P., & Gyselinck, J. (2012). Time-domain surface impedance boundary conditions enhanced by coarse volume finite-element discretisation. IEEE transactions on magnetics, 48(2), 6136746, 631-634. doi:10.1109/TMAG.2011.2172923
  5. 64. Pop, A.-C., Petrus, V., Martis, C., Iancu, V., & Gyselinck, J. (2011). On the firing angles control of a 8/6 switched reluctance machine. Journal of Electrical and Electronics Engineering, 4(1), 189-194.
  6. 65. Petrus, V., Pop, A.-C., Martis, C., Iancu, V., & Gyselinck, J. (2011). Comparative study of different current control techniques for a 4-phase 8/6 switched reluctance machine. Journal of Electrical and Electronics Engineering, 4(1), 173-178.
  7. 66. Gyselinck, J., Dular, P., Sadowski, N., Kuo-Peng, P., & Sabariego, R. (2010). Homogenization of form-wound windings in frequency and time domain finite-element modeling of electrical machines. IEEE transactions on magnetics, 46(8), 5512960, 2852-2855. doi:10.1109/TMAG.2010.2043515
  8. 67. Gyselinck, J., Dular, P., Sadowski, N., Kuo-Peng, P., & Sabariego, R. (2010). Homogenization of form-wound windings in frequency and time domain finite element modelling of electrical machines. IEEE transactions on magnetics, 46, 2852-2855.
  9. 68. Sabariego, R., Sergeant, P., Dular, P., Dupré, L., Gyselinck, J., & Geuzaine, C. (2010). Finite-element analysis of a shielded pulsed-current induction heater-experimental validation of a time-domain thin-shell approach. Compel, 29(6), 1585-1595. doi:10.1108/03321641011078652
  10. 69. Sabariego, R., Dular, P., Geuzaine, C., & Gyselinck, J. (2010). Surface-impedance boundary conditions in dual time-domain finite-element formulations. IEEE transactions on magnetics, 46(8), 5512867, 3524-3531. doi:10.1109/TMAG.2010.2043234
  11. 70. Gyselinck, J., Dular, P., Geuzaine, C., & Sabariego, R. (2009). Surface-impedance boundary conditions in two-dimensional time-domain finite-element calculations using the magnetic-vector-potential formulation. IEEE transactions on magnetics, 45, 1280-1283.
  12. 71. Sabariego, R., Geuzaine, C., Dular, P., & Gyselinck, J. (2009). Nonlinear time-domain finite-element modelling of thin electromagnetic shells. IEEE transactions on magnetics, 45, 976-979.
    13. << Précédent 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 Suivant >>