An evolutionary tuning technique for type-2 fuzzy logic controller

Uncertainty is an inherent part of control systems used in real world applications. Various instruments used in such systems produce uncertainty in their measurements and thus influence the integrity of the data collection. Type-1 fuzzy sets used in conventional fuzzy systems cannot fully handle the...

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Veröffentlicht in:Transactions of the Institute of Measurement and Control 2011-04, Vol.33 (2), p.223-245
Hauptverfasser: Mohammadi, S.M.A., Gharaveisi, A.A., Mashinchi, M., Vaezi-Nejad, S.M.
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Sprache:eng
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Zusammenfassung:Uncertainty is an inherent part of control systems used in real world applications. Various instruments used in such systems produce uncertainty in their measurements and thus influence the integrity of the data collection. Type-1 fuzzy sets used in conventional fuzzy systems cannot fully handle the uncertainties present but type-2 fuzzy sets that are used in type-2 fuzzy systems can handle such uncertainties in a better way because they provide more parameters and more design degrees of freedom. There are membership functions that can be parameterized by a few variables and when optimized, the membership optimization problem can be reduced to a parameter optimization problem. This paper deals with the parameter optimization of the type-2 fuzzy membership functions using a new proposed reinforcement learning algorithm in automatic voltage regulator. The results of the proposed method referred to as the Extended Discrete Action Reinforcement Learning Automata algorithm are compared with the results obtained by the Discrete Action Reinforcement Learning Automata algorithm and well known genetic algorithm. The performance of the proposed method on initial error reduction and error convergence issues are investigated by computer simulations.
ISSN:0142-3312
1477-0369
DOI:10.1177/0142331209104480