Christopher S. Edrington
Cited by
Cited by
Handbook of Automotive Power Electronics and Motor Drives
A Emadi
Making the case for applications of switched reluctance motor technology in automotive products
M Krishnamurthy, CS Edrington, A Emadi, P Asadi, M Ehsani, B Fahimi
IEEE Transactions on power electronics 21 (3), 659-675, 2006
A megawatt-scale power hardware-in-the-loop simulation setup for motor drives
M Steurer, CS Edrington, M Sloderbeck, W Ren, J Langston
IEEE Transactions on Industrial Electronics 57 (4), 1254-1260, 2009
An intelligent auction scheme for smart grid market using a hybrid immune algorithm
B Ramachandran, SK Srivastava, CS Edrington, DA Cartes
IEEE Transactions on Industrial Electronics 58 (10), 4603-4612, 2010
Prediction of rotor position at standstill and rotating shaft conditions in switched reluctance machines
M Krishnamurthy, CS Edrington, B Fahimi
IEEE Transactions on Power Electronics 21 (1), 225-233, 2006
Bipolar switched reluctance machines: A novel solution for automotive applications
CS Edrington, M Krishnamurthy, B Fahimi
IEEE Transactions on Vehicular Technology 54 (3), 795-808, 2005
Real-time emulation of a high-speed microturbine permanent-magnet synchronous generator using multiplatform hardware-in-the-loop realization
A Hasanzadeh, CS Edrington, N Stroupe, T Bevis
IEEE Transactions on Industrial Electronics 61 (6), 3109-3118, 2013
Role of power hardware in the loop in modeling and simulation for experimentation in power and energy systems
CS Edrington, M Steurer, J Langston, T El-Mezyani, K Schoder
Proceedings of the IEEE 103 (12), 2401-2409, 2015
Power flow control and network stability in an all-electric ship
M Cupelli, F Ponci, G Sulligoi, A Vicenzutti, CS Edrington, T El-Mezyani, ...
Proceedings of the IEEE 103 (12), 2355-2380, 2015
Effective energy management of hybrid AC–DC microgrids with storage devices
B Papari, CS Edrington, I Bhattacharya, G Radman
IEEE transactions on smart grid 10 (1), 193-203, 2017
Predictive control for energy management in ship power systems under high-power ramp rate loads
T Van Vu, D Gonsoulin, F Diaz, CS Edrington, T El-Mezyani
IEEE Transactions on Energy Conversion 32 (2), 788-797, 2017
Analysis and control of a photovoltaic system: Application to a high-penetration case study
S Balathandayuthapani, CS Edrington, SD Henry, J Cao
IEEE Systems Journal 6 (2), 213-219, 2011
Application of artificial intelligence to real-time fault detection in permanent-magnet synchronous machines
Y Nyanteh, C Edrington, S Srivastava, D Cartes
IEEE transactions on industry applications 49 (3), 1205-1214, 2013
Robust adaptive droop control for DC microgrids
TV Vu, D Perkins, F Diaz, D Gonsoulin, CS Edrington, T El-Mezyani
Electric Power Systems Research 146, 95-106, 2017
An autocalibrating inductance model for switched reluctance motor drives
CS Edrington, B Fahimi, M Krishnamurthy
IEEE Transactions on Industrial Electronics 54 (4), 2165-2173, 2007
An induction machine emulator for high-power applications utilizing advanced simulation tools with graphical user interfaces
O Vodyakho, M Steurer, CS Edrington, F Fleming
IEEE Transactions on Energy Conversion 27 (1), 160-172, 2011
Real-time emulation of switched reluctance machines via magnetic equivalent circuits
FE Fleming, CS Edrington
IEEE Transactions on Industrial Electronics 63 (6), 3366-3376, 2016
Application of artificial intelligence to stator winding fault diagnosis in Permanent Magnet Synchronous Machines
YD Nyanteh, SK Srivastava, CS Edrington, DA Cartes
Electric Power Systems Research 103, 201-213, 2013
Multi-loop linear resonant voltage source inverter controller design for distorted loads using the linear quadratic regulator method
A Hasanzadeh, CS Edrington, B Maghsoudlou, F Fleming, H Mokhtari
IET Power Electronics 5 (6), 841-851, 2012
A review of PHEV grid impacts
T Bevis, B Hacker, CS Edrington, S Azongha
41st North American Power Symposium, 2009
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