Title :
Recurrent-neural-network-based implementation of a programmable cascaded low-pass filter used in stator flux synthesis of vector-controlled induction motor drive
Author :
da Silva, L.E.B. ; Bose, Bimal ; Pinto, Joao O. P.
Author_Institution :
Dept. of Electr. Eng., Tennessee Univ., Knoxville, TN
fDate :
6/1/1999 12:00:00 AM
Abstract :
The concept of programmable cascaded low-pass filter for stator flux vector synthesis by ideal integration of stator voltages at any frequency was introduced by Bose and Patel. A new form of implementation of this filter is proposed that uses a combination of recurrent neural network trained by Kalman filter and a polynomial neural network. The proposed structure is simple, permits faster implementation by digital signal processor, and gives improved performance
Keywords :
Kalman filters; digital signal processing chips; induction motor drives; learning (artificial intelligence); low-pass filters; machine vector control; magnetic flux; power engineering computing; programmable filters; recurrent neural nets; stators; Kalman filter; digital signal processor; polynomial neural network; programmable cascaded low-pass filter; recurrent neural network training; recurrent-neural-network-based implementation; stator flux synthesis; stator flux vector synthesis; stator voltages; vector-controlled induction motor drive; Frequency synthesizers; Hardware; Induction motor drives; Low pass filters; Machine vector control; Neural networks; Polynomials; Recurrent neural networks; Stators; Voltage;
Journal_Title :
Industrial Electronics, IEEE Transactions on
