Souhir Tounsi and Saber H. Abdallah
[1] S. Chaithongsuk, B. Nahid-Mobarakeh, J. Caron, N. Takorabet, and F. Meibody-Tabar, Optimal design of permanent magnet motors to improve field-weakening performances in variable speed drives, IEEE Transactions on Industrial Electronics, 59(6), 2012, 2484–2494. [2] C.C. Hwang and J.J. Chang, Design and analysis of a high power density and high efficiency permanent magnet DC motor, Journal of Magnetism and Magnetic Materials, 209(1–3), 2000, 234–236. [3] M.I. Chunting Chris, Analytical design of permanent-magnet traction-drive motors, IEEE Transactions on Magnetics, 42(7), 2006, 1861–1866, 10.1109/TMAG.2006.874511. [4] S. Tounsi, R. Neji, and F. Sellami, Conception d’un action-neuraaimants permanents pour vehicules electriques, Revue Internationale de Genie Electrique, 9/6, 2006, 693–718. [5] C.H. Park, et al., Development of electric vehicle simulator for performance analysis, Universal Journal of Mechanical Engineering, 2(7), 2014, 231–239. [6] D.W. Gao and A. Emadi, Modeling and simulation of electric and hybrid vehicles, IEEE Xplore, 95(4), 2007, 729–745. [7] T. Markel, et al., ADVISOR: A systems analysis tool for advanced vehicle modeling, Journal of Power Sources, 110(2), 2002, 255–266. [8] M.H. Kacem, S. Tounsi, and R. Neji, Systemic design and control of electric vehicles, International Journal of Scientific and Technology Research, 1(10), 2012, 73–81. [9] A.R. Bhavsar and S.V. Patil, Advance speed control technique of permanent magnet brushless dc motor drive using Matlab simulation and FPGA controller, 2018 International Conf. on Smart Electric Drives and Power System (ICSEDPS), Nagpur, India, 12–13 June 2018, 388–392, DOI: 10.1109/ICSEDPS.2018.8536003. [10] P. Jayal and G. Bhuvaneswari, Vector control of permanent magnet synchronous motor drive using a reduced switch five-level inverter, 2018 IEEMA Engineer Infinite Conf. (eTechNxT), New Delhi, India, 13–14 March 2018, 1–6 DOI: 10.1109/ETECHNXT.2018.8385317. [11] L.I. Silva, G.A. Magallan, P.M. De la Barrera, C.H. De Angelo, and G.O. Garcıa, Simulation of electric vehicles combining structural and functional approaches, Journal of Electrical Engineering and Technology, 9(3), 2014, 848–858. [12] S.H Abdallah and S. Tounsi, Systemic design of electric vehicles power chain, Journal of Electrical Engineering, 3(15), 2015, 1–10. [13] S. Tounsi, Control of the electric vehicles power chain with electromagnetic switches reducing the energy, Journal of Electromagnetic Analysis and Applications, 3(12), 2011, 537–545. [14] S. Abdallah and S. Tounsi, Optimal electric vehicle design tool using genetic algorithms, SAE International Journal of Passenger Cars: Electronic and Electrical Systems, 11(2), 2018, 109–122, https://doi.org/10.4271/07-11-02-0010. [15] S.H. Abdallah and S. Tounsi, Electric drives of vehicles power chain, Journal of Electrical Engineering and Electronic Technology, 5(2), 2016, DOI: 10.4172/2325-9833.1000127. [16] K. Mahmud and G.E. Town, A review of computer tools for modeling electric vehicle energy requirements and their impact on power distribution networks, Applied Energy, 172, 2016, 337–359.
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