1 Dowlatshahi M, "Torque ripple minimization of switched reluctance motor using modifi ed torque sharing function" 1-6, 2013
2 Takeno M, "Test results and torque improvement of the 50-kw switched reluctance motor designed for hybrid electric vehicles" 48 (48): 1327-1334, 2012
3 Fu J, "Subdomain model for predicting magnetic fi eld in slotted surface mounted permanent-magnet machines with rotor eccentricity" 48 (48): 1906-1917, 2012
4 Qiu ZJ, "Research on rotor eccentricity compensation control for bearing less surfacemounted permanent-magnet motors based on an exact analytical method" 51 (51): 1-4, 2015
5 Sahin C, "Reducing torque ripple of switched reluctance machines by relocation of rotor moulding clinches" 6 (6): 753-760, 2012
6 Michon M, "Operating strategies of switched reluctance machines for exhaust gas energy recovery systems" 48 (48): 1478-1486, 2012
7 Khedda ZD, "Nonlinear analytical prediction of magnetic fi eld and electromagnetic performances in switched reluctance machines" 53 (53): 8107311-, 2017
8 Li G, "Modifi cation in rotor pole geometry of mutually coupled switched reluctance machine for torque ripple mitigating" 48 (48): 2025-2034, 2012
9 Husain I, "Minimization of torque ripple in SRM drives" 49 : 28-39, 2002
10 Alam FR, "Magnetic field analysis in eccentric surface-mounted permanent-magnet motors using an improved conformal mapping method" 31 (31): 333-334, 2016
1 Dowlatshahi M, "Torque ripple minimization of switched reluctance motor using modifi ed torque sharing function" 1-6, 2013
2 Takeno M, "Test results and torque improvement of the 50-kw switched reluctance motor designed for hybrid electric vehicles" 48 (48): 1327-1334, 2012
3 Fu J, "Subdomain model for predicting magnetic fi eld in slotted surface mounted permanent-magnet machines with rotor eccentricity" 48 (48): 1906-1917, 2012
4 Qiu ZJ, "Research on rotor eccentricity compensation control for bearing less surfacemounted permanent-magnet motors based on an exact analytical method" 51 (51): 1-4, 2015
5 Sahin C, "Reducing torque ripple of switched reluctance machines by relocation of rotor moulding clinches" 6 (6): 753-760, 2012
6 Michon M, "Operating strategies of switched reluctance machines for exhaust gas energy recovery systems" 48 (48): 1478-1486, 2012
7 Khedda ZD, "Nonlinear analytical prediction of magnetic fi eld and electromagnetic performances in switched reluctance machines" 53 (53): 8107311-, 2017
8 Li G, "Modifi cation in rotor pole geometry of mutually coupled switched reluctance machine for torque ripple mitigating" 48 (48): 2025-2034, 2012
9 Husain I, "Minimization of torque ripple in SRM drives" 49 : 28-39, 2002
10 Alam FR, "Magnetic field analysis in eccentric surface-mounted permanent-magnet motors using an improved conformal mapping method" 31 (31): 333-334, 2016
11 Boughrara K, "General subdomain model for predicting magnetic fi eld in internal and external rotor multiphase fl ux-switching machines topologies" 49 (49): 5310-5325, 2013
12 Pina AJ, "Eff ect of manufacturing variations on cogging torque in surface-mounted permanent magnet motors" 4843-4850, 2015
13 Chiba A, "Development of a rare-earth-free SR motor with high torque density for hybrid vehicles" 30 : 175-182, 2015
14 Vandana R, "Design methodology for highperformance segmented rotor switched reluctance motors" 30 (30): 11-21, 2015
15 Cheng H, "Design indicators and structure optimization of switched reluctance machine for electric vehicles" 9 (9): 319-331, 2015
16 Zhu ZQ, "Contribution of current harmonics to average torque and torque ripple in switched reluctance machines" 53 (53): 1-9, 2017
17 Madhavan R, "Axial fl ux segmented SRM with a higher number of rotor segments for electric vehicles" 28 : 203-213, 2013
18 Qian H, "Analytical solution for cogging torque in surface-mounted permanent-magnet motors with magnet imperfections and rotor eccentricity" 50 (50): 1-15, 2014
19 Radun A, "Analytical calculation of the switched reluctance motor’s unaligned inductance" 35 (35): 4473-4481, 1999
20 Cao X, "Advanced control method for single-winding bearingless switched reluctance motor to reduce torque ripple and radial displacement" 32 (32): 1533-1543, 2017
21 Fahimi B, "A switched reluctance machine-based starter/alternator for more electric cars" 19 : 116-124, 2004