Milad N. Azari


  1. [1] J. Pyrhonen, T. Jokinen, and V. Hrabovcova, Design of rotating electrical machines, 1st ed. (United Kingdom: John Wiley & Sons, 2008).
  2. [2] Q. Wu and W. Tian, Design of permanent magnet brushless DC motor control system based on dsPIC30F4012, Procedia Engineering, 29, 2012, 4223–4227.
  3. [3] M. Markovic, P. Ragot, and Y. Perriard, Design optimization of a BLDC motor: A comparative analysis, Proc. of the IEEE International Electric Machines and Drives Conf., 2007, 1520–1523.
  4. [4] T. Ishikawa, K. Yonetake, and N. Kurita, An optimal material distribution design of brushless DC motor by genetic algorithm considering a cluster of material, IEEE Transactions on Magnetics, 47(5), 2011, 1310–1313.
  5. [5] B.K. Son, G.-J. Park, J.-W. Kim, Y.-J. Kim, and S.-Y. Jung, Interstellar search method with mesh adaptive direct search for optimal design of brushless DC motor, IEEE Transactions on Magnetics, 52(3), 2016, 1–4.
  6. [6] P.R. Upadhyay and K.R. Rajagopal, Genetic algorithm based design optimization of a permanent magnet brushless DC motor, Journal of Applied Physics, 97(10), 2005, 101–110.
  7. [7] K.-Y. Yoon and B.-I. Kwon, Optimal design of a new interior permanent magnet motor using a flared-shape arrangement of ferrite magnets, IEEE Transactions on Magnetics, 52(7), 2016, 1–4.
  8. [8] H.-s. Kim, Y.-M. You, and B.-i. Kwon, Rotor shape optimization of interior permanent magnet BLDC motor according to magnetization direction, IEEE Transactions on Magnetics, 49(5), 2013, 2193–2196.
  9. [9] M. Markovic and Y. Perriard, Simplified design methodology for a slotless brushless DC motor, IEEE Transactions on Magnetics, 42(12), 2006, 3842–3846.
  10. [10] X. Liu, H. Hu, J. Zhao, A. Belahcen, L. Tang, and L. Yang, Analytical solution of the magnetic field and EMF calculation in ironless BLDC motor, IEEE Transactions on Magnetics, 52(2), 2016, 1–10.
  11. [11] T.-Y. Lee, M.-K. Seo, Y.-J. Kim, and S.-Y. Jung, Motor design and characteristics comparison of outer-rotor-type BLDC motor and BLAC motor based on numerical analysis, IEEE Transactions on Applied Superconductivity, 26(4), 2016, 1–6.
  12. [12] S.M. Jang, H.W. Cho, and S.K. Choi, Design and analysis of a high-speed brushless DC motor for centrifugal compressor, IEEE Transactions on Magnetics, 43(6), 2007, 2573–2575.
  13. [13] H.-I. Lee and M.D. Noh, Optimal design of radial-flux toroidally wound brushless DC machines, IEEE Transactions on Industrial Electronics, 58(2), 2011, 444–449.
  14. [14] A. Rahideh, T. Korakianitis, P. Ruiz, T. Keeble, and M.T. Rothman, Optimal brushless DC motor design using genetic algorithms, Journal of Magnetism and Magnetic Materials, 322(22), 2010, 3680–3687.
  15. [15] Q. Zhang, R. Wang, J. Yang, K. Ding, and J. Hu, Collective decision optimization algorithm: A new heuristic optimization method. Neurocomputing, 221, 2017, 123–137.
  16. [16] X. Xu, Z. Hu, Q. Su, and Z. Xiong, Multiobjective collective decision optimization algorithm for economic emission dispatch problem, Complexity, 2018, 2018, 20, Article ID 1027193. https://doi.org/10.1155/2018/1027193.
  17. [17] M. Niaz Azari, M. Samami, and S.M. Abedi Pahnehkolaei, Optimal design of a brushless DC motor, by using the cuckoo optimization algorithm, International Journal of Motorering (IJE), Transactions B: Applications, 30(5), 2017, 668–677.

Important Links:

Go Back