An artificial neural network position estimator for a variable reluctance linear actuator

Author

Cincotti, S. ; Fanni, A. ; Marchesi, M. ; Serri, A.

Author_Institution

Dipartimento di Ingegneria Elettrica ed Elettronica, Cagliari Univ., Italy

Volume

1

fYear

1996

fDate

23-27 Jun 1996

Firstpage

695

Abstract

A neural network approach to the position estimation problem for a variable reluctance linear actuator is investigated. The inputs of the neural network are current ripple measurements and the switching pattern of the power converter. The neural network approach allows to account for iron saturation and iron losses effects resulting in an accurate position estimation. Numerical simulations are developed to show the feasibility of the proposed method, as well as the neural robustness. Finally, experimental measurements on a prototype are presented to validate the proposed approach

Keywords

electric actuators; learning (artificial intelligence); linear motors; machine testing; machine theory; neural nets; parameter estimation; position measurement; reluctance motors; artificial neural network; current ripple measurements; iron losses; iron saturation; neural net inputs; neural robustness; numerical simulation; position estimator; power converter; switching pattern; variable reluctance linear actuator; Artificial neural networks; Hydraulic actuators; Iron; Mathematical model; Mechanical variables control; Neural networks; Pollution measurement; Prototypes; Reluctance motors; Synchronous motors;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Electronics Specialists Conference, 1996. PESC '96 Record., 27th Annual IEEE

Conference_Location

Baveno

ISSN

0275-9306

Print_ISBN

0-7803-3500-7

Type

conf

DOI

10.1109/PESC.1996.548657

Filename

548657