A Estimation of Ridge-Based in a Type-2 Fuzzy Non-Parametric Regression

Document Type : Research Article

Authors

School of Mathematics and Computer Science, Damghan University, Damghan, Iran

Abstract

This paper focuses on estimating ridge in a type-2 fuzzy non-parametric regression model that utilizes non-fuzzy inputs, type-2 fuzzy output data, and type-2 fuzzy coefficients within a dual Lagrange space. It begins with definitions of type-2 fuzzy sets (T2FSs) and presents a closed parametric form for complete triangular T2FSs. The proposed framework underpins a local linear smoothing method that incorporates a cross-validation procedure for optimizing ridge parameters and smoothing values. The research advances statistical modeling with type-2 fuzzy systems, offering innovative techniques for regression analysis in complex data situations. The combination of ridge estimation, local linear smoothing, and cross-validation is highlighted for its potential to yield precise results. Our work is able to model complex and nonlinear relationships between variables, which more effectively deals with uncertainties and ambiguities in the data, prevents overfitting, and ultimately improves the accuracy and reliability of predictions. Numerical simulations are included to validate the theoretical findings and demonstrate the method's effectiveness.

Keywords

Main Subjects

Full Text

 

Article PDF

References

[1] A. A. H. A. Ahmadini, novel technique for parameter estimation in intuitionistic fuzzy logistic regression model, Ain Shams Engineering Journal, 13(1), 101518, (2022).
[2] M. G. Akbari, G. Hesamian, A fuzzy linear regression model with autoregressive fuzzy errors based on exact predictors and fuzzy responses, Computational and Applied Mathematics, 41(6), 1–16, (2022).
[3] M. Arefi, Quantile fuzzy regression based on fuzzy outputs and fuzzy parameters, Soft Computing, 24(1), 311–320, (2020).
[4] Z. K. Bahez, H. A. Rasheed, Comparing Some of Robust the Non-Parametric Methods for Semi-Parametric Regression Models Estimation. Journal of Economics And Administrative Sciences, 28(132), 105–117, (2022).
[5] N. S. Bajestani, A. V. Kamyad, E. N. Esfahani, A. Zare, Prediction of retinopathy in diabetic patients using type-2 fuzzy regression model, European Journal of Operational Research, 37(3), 859–869, (2018).
[6] E. Bas, E. Egrioglu, A fuzzy regression functions approach based on Gustafson-Kessel clustering algorithm, Information Sciences, 592, 206–214, (2022).
[7] A. Celmins, Least squares model fitting to fuzzy vector data, Fuzzy Sets and Systems, 22(3), 245–269, (1987).
[8] M. erný, M. Hladík, Possibilistic linear regression with fuzzy data: tolerance approach with prior information, Fuzzy Sets and Systems, 340, 127–144, (2018).
[9] N. Chukhrova, A. Johannssen, Fuzzy regression analysis: systematic review and bibliography. Applied Soft Computing, 84, 105–125, (2019).
[10] P. Diamond, Fuzzy least squares, Information Sciences, 46(3), 141–157, (1988).
[11] J. Fan, I. Gijbels, Local polynomial modelling and its applications: monographs on statistics and applied probability, 66, (1996).
[12] H. Hamrawi, S. Coupland, Type-2 fuzzy arithmetic using alpha-planes, in: Proc. IFSA-EUSFLAT, Portugal, 606–611, (2009).
[13] H. Hamrawi, Type-2 fuzzy alpha-cuts, De Montfort University, Ph.D. Thesis, 2011.
[14] H. Hassanpour, H.R. Maleki, M.A. Yaghoobi, A goal programming approach to fuzzy linear regression with non-fuzzy input and fuzzy output data, Asia Pac J Oper Res, 26(5), 587–604, (2009).
[15] G. Hesamian, M. G Akbari, M. Shams, Parameter estimation in fuzzy partial univariate linear regression model with non-fuzzy inputs and triangular fuzzy outputs, Iranian Journal of Fuzzy Systems, 18(2), 51–64, (2021). 
 [16] D.H. Hong, C. Hwang, C. Ahn, Ridge estimation for regression models with crisp inputs and Gaussian fuzzy output, Fuzzy Sets and Systems, 142, 307–319, (2004).
[17] E. Hosseinzadeh, H. Hassanpour, M. Arefi, A weighted goal programming approach to fuzzy linear regression with crisp inputs and type-2 fuzzy outputs, Soft computing, 19(5), 1143–1151, (2015).
[18] A. Kaufmann, M. Gupta, Introduction to Fuzzy Arithmetic Theory and Applications, New York: Van Nostran Reinhold Co. Inc, 1985.
[19] G. Klir, B. Yuan, Fuzzy sets and fuzzy logic: theory and applications, Upper Saddle River, NJ: Prentice Hall, 1995.
[20] F. Liu, An efficient centroid type-reduction strategy for general type-2 fuzzy logic system, Information Sciences, 178(9), 2224–2236, (2008).
[21] M. Mazandarani, M. Najariyan, Differentiability of type-2 fuzzy number-valued functions, Communications in Nonlinear Science and Numerical Simulation, 19(3), 710–725, (2014).
[22] O. Poleshchuk, E. Komarov, A fuzzy linear regression model for interval type-2 fuzzy sets. In 2012 Annual Meeting of the North American Fuzzy Information Processing Society (NAFIPS). IEEE, 1–5, (2012).
[23] N. Shafaei Bajestani, A. Vahidian Kamyad, A. Zare, Possibilistic Type-2 Fuzzy Regression with Application to TAIEX Forecasting, Majlesi Journal of Mechatronic Systems, 5(2), 11–15, (2016).
[24] N. Shafaei Bajestani, A. Vahidian Kamyad, A. Zare, A Piecewise Type-2 Fuzzy Regression Model, International Journal of Computational Intelligence Systems, 10(1), 734–744, (2017).
[25] H. Tanaka, S. Uejima, K. Asai, Linear Regression Analysis with Fuzzy Model. IEEE Trans. Systems Man Cybern, 12, 903–907, (1982).
[26] H. Tanaka, Fuzzy data analysis by possibilistic linear models. Fuzzy sets and systems, 24(3), 363–375, (1987).
[27] H. Tanaka, I. Hayashi, J. Watada, Possibilistic linear regression analysis for fuzzy data. European Journal of Operational Research, 40(3), 389–396, (1989).
[28] D. Topuz, V. Özkaya, B. Çiçek, Bootstrap Resampling Method for Estimation of Fuzzy Regression Parameters and a Sample Application, REVSTAT-Statistical Journal, 2022.
[29] Y. Wei, J. Watada, Building a type-2 fuzzy regression model based on credibility theory and its application on arbitrage pricing theory, IEEJ Transactions on Electrical and Electronic Engineering, 11(6), 720–729, (2016).
[30] M. S. Yang, and C.H. Ko, On a class of fuzzy c-numbers clustering procedures for fuzzy data. Fuzzy sets and systems, 84(1), 49–60, (1996).
[31] L. A. Zadeh, Information and control. Fuzzy sets, 8(3), 338–353, (1965).
[32] L. A. Zadeh, The concept of a linguistic variable and its application to approximate reasoning-I. Information sciences, 8(3), 199–249, (1975).
[33] R. Zarei, M. G. Akbari, J. Chachi, Modeling autoregressive fuzzy time series data based on semi-parametric methods, Soft Computing, 24(10), 7295–7304, (2020).
[34] J. Zhao, T. Zhao Deep interval type-2 generalized fuzzy hyperbolic tangent system for nonlinear regression prediction, Engineering Applications of Artificial Intelligence, 2024.
Analytical and Numerical Solutions for Nonlinear Equations
Volume 9, Issue 1
May 2024
Pages 74-88

Files

History

  • Receive Date: 25 March 2025
  • Revise Date: 14 May 2025
  • Accept Date: 31 May 2025
  • Publish Date: 02 June 2025

Share

How to cite

Statistics