Title :
Untrained Artificial Neuron-Based Speed Control of Interior Permanent-Magnet Motor Drives Over Extended Operating Speed Range
Author :
Butt, Casey B. ; Rahman, Md Arifur
Author_Institution :
Hybrid/Electr. Power Electron., Gen. Motors, Milford, MI, USA
Abstract :
This paper presents an intelligent speed controller for the interior permanent-magnet synchronous motor, based on a single artificial neuron. Traditional artificial neural network-based motor controllers require extensive offline training, which is both time consuming and requires extensive knowledge of motor behavior for the specific drive system. In addition, drive behavior is unpredictable when parameters outside the training set are encountered. The proposed drive system overcomes these limitations by requiring no offline training, is robust under varying operating parameters, and is easily adaptable to various drive systems. Drive efficacy is verified in simulation as well as experimentally.
Keywords :
drives; intelligent control; machine control; permanent magnet motors; synchronous motors; velocity control; artificial neural network-based motor controllers; drive behavior; drive efficacy; drive system; extended operating speed range; intelligent speed controller; interior permanent-magnet motor drives; interior permanent-magnet synchronous motor; motor behavior; offline training; operating parameters; training set; untrained artificial neuron-based speed control; Equations; Hysteresis motors; Mathematical model; Rotors; Storage area networks; Torque; Training; Artificial neural network (ANN); intelligent control; interior permanent-magnet motor; interior permanent-magnet synchronous motor (IPMSM); motor control;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2013.2253533
