Forward and backward fuzzy rule base interpolation using fuzzy geometry

S. Das; D. Chakraborty; L. T. Koczy

Forward and backward fuzzy rule base interpolation using fuzzy geometry

Publish place: Iranian Journal of Fuzzy Systems، Vol: 20، Issue: 3

Publish Year: 1402

Type: Journal paper

Language: English

This Paper With 20 Page And PDF Format Ready To Download

DOWNLOAD Paper

Certificate
I'm the author of the paper

Export:

Link to this Paper:

https://civilica.com/doc/1663174

Document National Code:

JR_IJFS-20-3_009

Index date: 23 May 2023

Forward and backward fuzzy rule base interpolation using fuzzy geometry abstract

Fuzzy rule interpolation (FRI) predicts an accountable outcome of a possible course of action in sparse fuzzy rule base system (FRBS). The geometry based linear fuzzy rule interpolation (GLFRI) is extended for multi-dimensional fuzzy rule base interpolation. Expansion/contraction (EC) of triangular, trapezoidal and complex polygonal fuzzy sets has been also proposed which enables the proposed FRI method to incorporate with fuzzy rules which include triangular, trapezoidal, hexagonal or complex fuzzy sets. The study further extends to introduce the process of backward rule base interpolation.It has been shown that the scale and move transformation-based FRI method can yield a non-convex fuzzy consequent which can be avoided by using the proposed method. The proposed method performs better without any risk of obtaining non-convex fuzzy consequent. The efficiency of proposed forward and backward FRI methods is projected with several numerical examples. A detailed comparison of EC transformation with scale and move transformation is also presented here.

Forward and backward fuzzy rule base interpolation using fuzzy geometry Keywords:

Inverse rule base interpolation , scale and move transformation , transformation of fuzzy point , translation of fuzzy number , multi-dimensional rule base interpolation

Forward and backward fuzzy rule base interpolation using fuzzy geometry authors

S. Das

School of Computer Science and Engineering, Nanyang Technological University, ۵۰ Nanyang Ave, ۶۳۹۷۹۸, Singapore

D. Chakraborty

Department of Mathematics, Indian Institute of Technology Kharagpur, Kharagpur, ۷۲۱۳۰۲, West Bengal, India

L. T. Koczy

Department of Information Technology, Szechenyi Istvan University, Gyor, Hungary

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :

begin{thebibliography}{۱}\bibitem{baranyi۱۹۹۸method}P. Baranyi, I. M. Bavelaar, R. Bubu\v{s}ka, L. T. K\'{o}czy, ...

\bibitem{baranyi۱۹۹۶general۱}P. Baranyi, T. D. Gedeon, L. T. K\'{o}czy, {\em A ...

\bibitem{baranyi۱۹۹۶general}P. Baranyi, L. T. K\'{o}czy, {\em A general and specialised ...

\bibitem{baranyi۲۰۰۰alpha}P. Baranyi, D. Tikk, T. D. Gedeon, L. T. K\'{o}czy, ...

\bibitem{bellman۱۹۷۰decision}R. E. Bellman, E. Richard, L. Asker Zadeh, {\em Decision-making ...

\bibitem{blavzivc۲۰۰۷design}S. Bla\v{z}ic, I. \v{S}krjanc, {\em Design and stability analysis of ...

\bibitem{chakraborty۲۰۱۸fuzzy}D. Chakraborty, S. Das, {\em Fuzzy geometry: Perpendicular to fuzzy ...

\bibitem{chen۲۰۱۹new}T. Chen, C. Shang, J. Yang, F. Li, Q. Shen, ...

\bibitem{das۲۰۲۲conceptualizing}S. Das, D. Chakraborty, {\em Conceptualizing fuzzy line as a ...

\bibitem{das۲۰۲۲graphical}S. Das, D. Chakraborty, {\em Graphical method to solve fuzzy ...

\bibitem{das۲۰۱۹linear}S. Das, D. Chakraborty, L. T. K\'{o}czy, {\em Linear fuzzy ...

\bibitem{das۲۰۲۰process}S. Das, D. Chakraborty, L. T. K\'oczy, {\em Process of ...

\bibitem{dubois۱۹۹۵gradual}D. Dubois, {\em Gradual rules and the approximation of control ...

\bibitem{dubois۱۹۹۲gradual}D. Dubois, H. Prade, {\em Gradual inference rules in approximate ...

\bibitem{jin۲۰۱۴backward}S. Jin, R. Diao, C. Quek, Q. Shen, {\em Backward ...

\bibitem{jin۲۰۱۴alpha}S. Jin, R. Diao, Q. Shen, {\em \alpha-cut-based backward fuzzy ...

\bibitem{jin۲۰۱۹backward}S. Jin, Q. Shen, J. Peng, {\em Backward fuzzy rule ...

\bibitem{johanyak۲۰۰۶fuzzy}Z. C. Johany\'{a}k, S. Kov\'{a}cs, {\em Fuzzy rule interpolation by ...

\bibitem{johanyak۲۰۰۶fuzzy۱}Z. C. Johany\'{a}k, S. Kov\'{a}cs, {\em Fuzzy rule interpolation based ...

\bibitem{johanyak۲۰۰۸polar}Z. C. Johany\'{a}k, S. Kov\'{a}cs, {\em Polar-cut based fuzzy model ...

\bibitem{hladek۲۰۰۸hierarchical}D. Hl\'{a}dek, J. Vascak, P. Sincak, {\em Hierarchical fuzzy inference ...

\bibitem{huang۲۰۰۴scale}Z. Huang, Q. Shen, {\em Scale and move transformation-based fuzzy ...

\bibitem{huang۲۰۰۶fuzzy}Z. Huang, Q. Shen, {\em Fuzzy interpolative reasoning via scale ...

\bibitem{huang۲۰۰۸fuzzy}Z. Huang, Q. Shen, {\em Fuzzy interpolation and extrapolation: A ...

\bibitem{koczy۱۹۹۳approximate}L. K\'{o}czy, K. Hirota, {\em Approximate reasoning by linear rule ...

\bibitem{koczy۱۹۹۳preservation}L. T. K\'{o}czy, S. Kov\'{a}cs, {\em On the preservation of ...

\bibitem{koczy۱۹۹۴shape}L. T. K\'{o}czy, S. Kov\'{a}cs, {\em Shape of the fuzzy ...

\bibitem{koczy۱۹۹۴convexity}L. T. K\'{o}czy, S. Kov\'{a}cs, {\em The convexity and piecewise ...

\bibitem{kovacs۲۰۰۴application}S. Kov\'{a}cs, L. T. K\'{o}czy, {\em Application of interpolation-based fuzzy ...

\bibitem{li۲۰۲۰interpretable}F. Li, C. Shang, Y. Li, Q. Shen, {\em Interpretable ...

\bibitem{li۲۰۲۱approximate}F. Li, C. Shang, Y. Li, J. Yang, Q. Shen, ...

\bibitem{lv۲۰۲۲w}H. Lv, F. Li, C. Shang, Q. Shen, {\em W-Infer-polation: ...

\bibitem{mamdani۱۹۷۵experiment}E. H. Mamdani, S. Assilian, {\em An experiment in linguistic ...

J. M. Mendel, P. P. Bonissone, {\em Critical thinking about ...

\bibitem{mukaidono۱۹۹۰approximate}M. Mukaidono, L. Ding, Z. Shen, {\em Approximate reasoning based ...

\bibitem{precup۲۰۰۰stability}R. E. Precup, S. Doboli, S. Preitl, {\em Stability analysis ...

A novel Kumaraswamy interval type-۲ TSK fuzzy logic system for subway passenger demand prediction [مقاله ژورنالی]

\bibitem{shen۱۹۹۳methods}Z. Shen, L. Ding, M. Mukaidono, {\em Methods of revision ...

\bibitem{sugeno۱۹۸۳multi}M. Sugeno, T. Takagi, {\em Multi-dimensional fuzzy reasoning}, Fuzzy Sets ...

\bibitem{tsukamoto۱۹۷۹approach}Y. Tsukamoto, {\em An approach to fuzzy reasoning method}, Advances ...

\bibitem{zadeh۱۹۷۳outline}L. A. Zadeh, {\em Outline of a new approach to ...

\bibitem{zhang۲۰۲۰dynamic}P. Zhang, Q. Shen, {\em Dynamic TSK systems supported by ...

\bibitem{zhou۲۰۲۲transformation}M. Zhou, C. Shang, G. Li, L. Shen, N. Naik, ...

نمایش کامل مراجع