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OPTIMISED FUZZY ALGORITHM TO CONTROL ADHESION CONDITIONS DURING STARTING IN AC DRIVES FOR TRACTION APPLICATIONS
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| Author(s) |
F. Brondolo; P. Ferrari; M. Marchesoni; L. Puglisi |
| Abstract |
This paper deals with the development of an anti-slipping fuzzy controller in
locomotives using AC motor drives as propulsion equipment. The study has been conceived in
order to exploit the maximum attainable adhesion value existing between wheel and rail during
traction. A complete model of the electro-mechanical system including an induction motor
vector control, the wheel and train dynamics regulated by the adhesion phenomenon, and an
anti-slipping fuzzy controller has been implemented using the Matlab-Simulink toolbox.
Simulations results, which are given for several wheel-rail surface conditions, are here reported
and described. |
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| Filename: | Unnamed file |
| Filesize: | 430.7 KB |
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| Type |
Members Only |
| Date |
Last modified 2016-03-17 by System |
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