Projects
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- High-power energy-recovery system for evaluation of the induction motor mechanical characteristics.
- Fuzzy logic control for indirect rotor-field oriented induction machine.
- Sliding-mode Fuzzy controller for sensorless control of the field-oriented induction motor.
- Speed-estimation techniques for sensorless control of the induction motor.
- Direct vector control of the rotor-flux oriented induction machine using flux sensing coils.
- Indirect vector control of the rotor-flux oriented induction machine supplied by high-frequency PWM inverter.
- Sensorless control of the direct rotor-flux oriented induction machine, using Model Reference Adaptive System for speed and rotor flux estimation.
- Sensorless control of the indirect rotor-flux oriented induction machine, using Model Reference Adaptive System for speed and rotor flux estimation.
- Torque vector control for traction application using rotor flux-oriented induction motor.
- Identification of the induction motor parameters using Kalman Filtering approach.
- Modified sliding-mode control of the field oriented induction motor.
- High-speed resolution system for induction motor controlled by PWM inverter.
- Digital-controlled single-phase unified power conditioner for non-linear and voltage sensitive loads.
- Self-controlled current-inverter feed synchronous motor for high-speed traction application.
- Performances of current-feed synchronous motor evaluated by LabView.
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