Max-min fuzzy neural networks for solving relational equations.

Armando Blanco; Miguel Delgado; Ignacio Requena

Mathware and Soft Computing (1994)

  • Volume: 1, Issue: 3, page 335-345
  • ISSN: 1134-5632

Abstract

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The Relational Equations approach is one of the most usual ones for describing (Fuzzy) Systems and in most cases, it is the final expression for other descriptions. This is why the identification of Relational Equations from a set of examples has received considerable atention in the specialized literature. This paper is devoted to this topic, more specifically to the topic of max-min neural networks for identification. Three methods of learning Fuzzy Systems are developed by combining the most desirable properties of two existing ones: Sayto-Mukaidono's technique and the so called smoothed derivative technique.

How to cite

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Blanco, Armando, Delgado, Miguel, and Requena, Ignacio. "Max-min fuzzy neural networks for solving relational equations.." Mathware and Soft Computing 1.3 (1994): 335-345. <http://eudml.org/doc/39031>.

@article{Blanco1994,
abstract = {The Relational Equations approach is one of the most usual ones for describing (Fuzzy) Systems and in most cases, it is the final expression for other descriptions. This is why the identification of Relational Equations from a set of examples has received considerable atention in the specialized literature. This paper is devoted to this topic, more specifically to the topic of max-min neural networks for identification. Three methods of learning Fuzzy Systems are developed by combining the most desirable properties of two existing ones: Sayto-Mukaidono's technique and the so called smoothed derivative technique.},
author = {Blanco, Armando, Delgado, Miguel, Requena, Ignacio},
journal = {Mathware and Soft Computing},
keywords = {Redes neuronales; Algebras difusas; Algebra relacional; Criterio minimax; smoothed derivative; relational equations; max-min neural networks},
language = {eng},
number = {3},
pages = {335-345},
title = {Max-min fuzzy neural networks for solving relational equations.},
url = {http://eudml.org/doc/39031},
volume = {1},
year = {1994},
}

TY - JOUR
AU - Blanco, Armando
AU - Delgado, Miguel
AU - Requena, Ignacio
TI - Max-min fuzzy neural networks for solving relational equations.
JO - Mathware and Soft Computing
PY - 1994
VL - 1
IS - 3
SP - 335
EP - 345
AB - The Relational Equations approach is one of the most usual ones for describing (Fuzzy) Systems and in most cases, it is the final expression for other descriptions. This is why the identification of Relational Equations from a set of examples has received considerable atention in the specialized literature. This paper is devoted to this topic, more specifically to the topic of max-min neural networks for identification. Three methods of learning Fuzzy Systems are developed by combining the most desirable properties of two existing ones: Sayto-Mukaidono's technique and the so called smoothed derivative technique.
LA - eng
KW - Redes neuronales; Algebras difusas; Algebra relacional; Criterio minimax; smoothed derivative; relational equations; max-min neural networks
UR - http://eudml.org/doc/39031
ER -

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