Inference with governing schemes for propagation of fuzzy convex constraints based on α-Cuts

Kiyohiko Uehara; Takumi Koyama; Kaoru Hirota

doi:10.20965/jaciii.2009.p0321

Inference with governing schemes for propagation of fuzzy convex constraints based on α-Cuts

Kiyohiko Uehara^*, Takumi Koyama, Kaoru Hirota

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

19 Citations (Scopus)

Abstract

A governing scheme is proposed for fuzzy constraint propagation from given facts to consequences in convex forms, which is applied to the inference method based on ?-cuts and generalized mean. The governing is performed by self-tuning which can reflect the distribution forms of fuzzy sets in consequent parts to the forms of deduced consequences. Thereby, the proposed scheme can solve the problems in the conventional inference based on the compositional rule of inference that deduces fuzzy sets with excessive fuzziness increase and specificity decrease. In simulations, it is confirmed that the proposed scheme can effectively perform the constraint propagation from given facts to consequences in convex forms while reflecting fuzzy-set distributions in consequent parts. It is also demonstrated that consequences are deduced without excessively large fuzziness and small specificity.

Original language	English
Pages (from-to)	321-330
Number of pages	10
Journal	Journal of Advanced Computational Intelligence and Intelligent Informatics
Volume	13
Issue number	3
DOIs	https://doi.org/10.20965/jaciii.2009.p0321
Publication status	Published - 2009
Externally published	Yes

Keywords

Constraint propagation
Fuzzy convex constraints
Fuzzy inference
Generalized mean
α-cuts

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10.20965/jaciii.2009.p0321

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abstract = "A governing scheme is proposed for fuzzy constraint propagation from given facts to consequences in convex forms, which is applied to the inference method based on ?-cuts and generalized mean. The governing is performed by self-tuning which can reflect the distribution forms of fuzzy sets in consequent parts to the forms of deduced consequences. Thereby, the proposed scheme can solve the problems in the conventional inference based on the compositional rule of inference that deduces fuzzy sets with excessive fuzziness increase and specificity decrease. In simulations, it is confirmed that the proposed scheme can effectively perform the constraint propagation from given facts to consequences in convex forms while reflecting fuzzy-set distributions in consequent parts. It is also demonstrated that consequences are deduced without excessively large fuzziness and small specificity.",

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AU - Uehara, Kiyohiko

AU - Koyama, Takumi

AU - Hirota, Kaoru

PY - 2009

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N2 - A governing scheme is proposed for fuzzy constraint propagation from given facts to consequences in convex forms, which is applied to the inference method based on ?-cuts and generalized mean. The governing is performed by self-tuning which can reflect the distribution forms of fuzzy sets in consequent parts to the forms of deduced consequences. Thereby, the proposed scheme can solve the problems in the conventional inference based on the compositional rule of inference that deduces fuzzy sets with excessive fuzziness increase and specificity decrease. In simulations, it is confirmed that the proposed scheme can effectively perform the constraint propagation from given facts to consequences in convex forms while reflecting fuzzy-set distributions in consequent parts. It is also demonstrated that consequences are deduced without excessively large fuzziness and small specificity.

AB - A governing scheme is proposed for fuzzy constraint propagation from given facts to consequences in convex forms, which is applied to the inference method based on ?-cuts and generalized mean. The governing is performed by self-tuning which can reflect the distribution forms of fuzzy sets in consequent parts to the forms of deduced consequences. Thereby, the proposed scheme can solve the problems in the conventional inference based on the compositional rule of inference that deduces fuzzy sets with excessive fuzziness increase and specificity decrease. In simulations, it is confirmed that the proposed scheme can effectively perform the constraint propagation from given facts to consequences in convex forms while reflecting fuzzy-set distributions in consequent parts. It is also demonstrated that consequences are deduced without excessively large fuzziness and small specificity.

KW - Constraint propagation

KW - Fuzzy convex constraints

KW - Fuzzy inference

KW - Generalized mean

KW - α-cuts

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Inference with governing schemes for propagation of fuzzy convex constraints based on α-Cuts

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Keywords

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