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Designing fuzzy controllers by rapid learning

✍ Scribed by Jianwei Zhang; Alois Knoll

Publisher
Elsevier Science
Year
1999
Tongue
English
Weight
773 KB
Volume
101
Category
Article
ISSN
0165-0114

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✦ Synopsis

We propose a learning approach to designing fuzzy controllers based on the B-spline model. Unlike other normalised parameterised set functions for defining fuzzy sets, B-spline basis functions do not necessarily span from membership values zero to one, but possess the property "partition of unity". B-spline basis functions can be automatically determined after each input is partitioned. Learning of a fuzzy controller based on B-spline basis functions is then equivalent to the adaptation of a B-spline interpolator. Parameters of the controller output of each rule can be adapted by using the gradient descent method. Optimal placements of the B-spline basis functions for specifying each input can be found by an algorithm working similarly to a self-organising neural network. Through comparative examples of function approximation we show that learning of such a fuzzy controller generally converges fastβ€’ This approach can be extended to the problems of supervised as well as unsupervised learning.

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