A fuzzy classifier design method based on the extended hedge algebras quantification

Phạm Đình Phong; Nguyễn Cát Hồ; Trần Thái Sơn; Nguyễn Thanh Thủy

doi:10.15625/1813-9663/29/4/4340

A fuzzy classifier design method based on the extended hedge algebras quantification

Phạm Đình Phong, Nguyễn Cát Hồ, Trần Thái Sơn, Nguyễn Thanh Thủy

Author affiliations

Authors

Phạm Đình Phong Công ty Prévoir Việt Nam
Nguyễn Cát Hồ Viện Công nghệ thông tin, Viện Hàn lâm Khoa học và Công nghệ Việt Nam
Trần Thái Sơn Viện Công nghệ thông tin, Viện Hàn lâm Khoa học và Công nghệ Việt Nam
Nguyễn Thanh Thủy Trường Đại học Công nghệ, Đại học Quốc gia Hà Nội

DOI:

https://doi.org/10.15625/1813-9663/29/4/4340

Keywords:

Fuzzy classifier, hedge algebras, quantification method

Abstract

The conventional method of quantification of hedge algebras [1-2] has achieved effective successes in its application to the fuzzy classifier design problem of fuzzy sets based semantics of linguistic terms in the form of triangle fuzzy sets [3, 4, 11]. The numeric semantic of a term defined by its semantically quantifying mapping value is a point which is relevant to define the vertex of the triangular fuzzy set. An extended quantification method of hedge algebras proposed in [10] using partitions of the feature spaces allows to model the core semantics of a terms in the form of an interval, which is upper base of a trapezoidal fuzzy set, based on a degree k semantically quantifying mapping intervals. Based on this extended hedge algebras quantification, this paper proposes a method for designing linguistic terms and fuzzy rule based classifiers with trapezoidal fuzzy set semantics and then examines the effectiveness of the new quantification method in solving classification problems. The experimental results over 10 datasets are given to show that the proposed method is more flexible and produces better results

Metrics

Metrics Loading ...

Downloads

Published

03-12-2013

How to Cite

[1]

P. Đình Phong, N. C. Hồ, T. T. Sơn, and N. T. Thủy, “A fuzzy classifier design method based on the extended hedge algebras quantification”, JCC, vol. 29, no. 4, pp. 325–337, Dec. 2013.

Download Citation

Issue

Vol. 29 No. 4 (2013)

Section

Computer Science

License

1. We hereby assign copyright of our article (the Work) in all forms of media, whether now known or hereafter developed, to the Journal of Computer Science and Cybernetics. We understand that the Journal of Computer Science and Cybernetics will act on my/our behalf to publish, reproduce, distribute and transmit the Work.
2. This assignment of copyright to the Journal of Computer Science and Cybernetics is done so on the understanding that permission from the Journal of Computer Science and Cybernetics is not required for me/us to reproduce, republish or distribute copies of the Work in whole or in part. We will ensure that all such copies carry a notice of copyright ownership and reference to the original journal publication.
3. We warrant that the Work is our results and has not been published before in its current or a substantially similar form and is not under consideration for another publication, does not contain any unlawful statements and does not infringe any existing copyright.
4. We also warrant that We have obtained the necessary permission from the copyright holder/s to reproduce in the article any materials including tables, diagrams or photographs not owned by me/us.