TY - BOOK ID - 145478271 TI - Advanced Control Systems for Electric Drives PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - History of engineering & technology KW - PMSM drive KW - current control KW - deadbeat predictive control KW - equivalent input disturbance KW - BSAII KW - Euclidean distance KW - energy management KW - E-REV KW - overhead transmission line KW - UAV inspection KW - safe distance KW - multi-source data fusion KW - adaptive threshold KW - permanent magnet synchronous motor KW - second-order sliding mode control KW - cascade control KW - robustness KW - PMSM KW - model predictive control KW - parameter identification KW - hybrid electric vehicles (HEVs) KW - mode transition KW - adaptive sliding mode control (A-SMC) KW - clutch actuator KW - PI observer KW - fractional order proportional-integral-differential (FOPID) KW - indirect vector control KW - position control of motor KW - induction motor KW - sensorless control KW - sliding mode observer KW - RBFNN-based self-tuning PID controller KW - I-f startup strategy KW - PMLSM KW - position sensorless control KW - high-frequency square-wave voltage injection KW - FIR filter KW - maglev train KW - automotive electric powertrain KW - rotor position sensor KW - resolver KW - inductive position sensor KW - eddy current position sensor KW - Hall sensor KW - magnetoresistive position sensor KW - Hall sensors KW - brushless direct current motor drive system KW - power electronics KW - industrial application KW - integrated electric drive system KW - electromechanical coupling KW - harmonic torque reduction strategy KW - quantized KW - nonlinear systems KW - time delay KW - lyapunov approach KW - real-time implementation KW - neural fuzzy controller KW - I-f control strategy KW - fractional order control KW - synergetic control KW - sliding mode control KW - motor drives KW - advanced control KW - power converters KW - estimation KW - sensor KW - artificial intelligence KW - PMSM drive KW - current control KW - deadbeat predictive control KW - equivalent input disturbance KW - BSAII KW - Euclidean distance KW - energy management KW - E-REV KW - overhead transmission line KW - UAV inspection KW - safe distance KW - multi-source data fusion KW - adaptive threshold KW - permanent magnet synchronous motor KW - second-order sliding mode control KW - cascade control KW - robustness KW - PMSM KW - model predictive control KW - parameter identification KW - hybrid electric vehicles (HEVs) KW - mode transition KW - adaptive sliding mode control (A-SMC) KW - clutch actuator KW - PI observer KW - fractional order proportional-integral-differential (FOPID) KW - indirect vector control KW - position control of motor KW - induction motor KW - sensorless control KW - sliding mode observer KW - RBFNN-based self-tuning PID controller KW - I-f startup strategy KW - PMLSM KW - position sensorless control KW - high-frequency square-wave voltage injection KW - FIR filter KW - maglev train KW - automotive electric powertrain KW - rotor position sensor KW - resolver KW - inductive position sensor KW - eddy current position sensor KW - Hall sensor KW - magnetoresistive position sensor KW - Hall sensors KW - brushless direct current motor drive system KW - power electronics KW - industrial application KW - integrated electric drive system KW - electromechanical coupling KW - harmonic torque reduction strategy KW - quantized KW - nonlinear systems KW - time delay KW - lyapunov approach KW - real-time implementation KW - neural fuzzy controller KW - I-f control strategy KW - fractional order control KW - synergetic control KW - sliding mode control KW - motor drives KW - advanced control KW - power converters KW - estimation KW - sensor KW - artificial intelligence UR - https://www.unicat.be/uniCat?func=search&query=sysid:145478271 AB - This book provides extensive information about advanced control techniques in electric drives. Multiple control and estimation methods are studied for position and speed tracking in different drives. Artificial intelligence tools, such as fuzzy logic and neural networks, are used for specific applications using electric drives. ER -