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A new approach based on artificial neural networks for high order multivariate fuzzy time series

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A new approach based on artificial neural networks for high order multivariate fuzzy time series. / Egrioglu, Erol; Aladag, Cagdas Hakan; Yolcu, Ufuk et al.
In: Expert Systems with Applications, Vol. 36, No. 7, 01.09.2009, p. 10589-10594.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Egrioglu, E, Aladag, CH, Yolcu, U, Uslu, VR & Basaran, MA 2009, 'A new approach based on artificial neural networks for high order multivariate fuzzy time series', Expert Systems with Applications, vol. 36, no. 7, pp. 10589-10594. https://doi.org/10.1016/j.eswa.2009.02.057

APA

Egrioglu, E., Aladag, C. H., Yolcu, U., Uslu, V. R., & Basaran, M. A. (2009). A new approach based on artificial neural networks for high order multivariate fuzzy time series. Expert Systems with Applications, 36(7), 10589-10594. https://doi.org/10.1016/j.eswa.2009.02.057

Vancouver

Egrioglu E, Aladag CH, Yolcu U, Uslu VR, Basaran MA. A new approach based on artificial neural networks for high order multivariate fuzzy time series. Expert Systems with Applications. 2009 Sept 1;36(7):10589-10594. doi: 10.1016/j.eswa.2009.02.057

Author

Egrioglu, Erol ; Aladag, Cagdas Hakan ; Yolcu, Ufuk et al. / A new approach based on artificial neural networks for high order multivariate fuzzy time series. In: Expert Systems with Applications. 2009 ; Vol. 36, No. 7. pp. 10589-10594.

Bibtex

@article{11dc0caca771427ab96c33b4ffd499a3,
title = "A new approach based on artificial neural networks for high order multivariate fuzzy time series",
abstract = "Fuzzy time series methods have been recently becoming very popular in forecasting. These methods can be categorized into two subclasses that are univariate and multivariate approaches. It is a known fact that real time series data can actually be affected by many factors. In this case, the using multivariate fuzzy time series forecasting model can be more reasonable in order to get more accurate forecasts. To obtain fuzzy forecasts when multivariate fuzzy time series approach is adopted, the most applied method is using tables of fuzzy relations. However, employing this method is a computationally though task. In this study, we introduce a new method that does not require using fuzzy logic relation tables in order to determine fuzzy relationships. Instead, a feed forward artificial neural network is employed to determine fuzzy relationships. The proposed method is applied to the time series data of the total number of annual car road accidents casualties in Belgium from 1974 to 2004 and a comparison is made between our proposed method and the methods proposed by Jilani and Burney [Jilani, T. A., & Burney, S. M. A. (2008). Multivariate stochastic fuzzy forecasting models. Expert Systems with Applications, 35, 691-700] and Lee et al. [Lee, L.-W., Wang, L.-H., Chen, S.-M., & Leu, Y.-H. (2006). Handling forecasting problems based on two factors high order fuzzy time series. IEEE Transactions on Fuzzy Systems, 14, 468-477].",
keywords = "Artificial neural networks, Forecasting, Fuzzy time series, Multivariate fuzzy time series approaches",
author = "Erol Egrioglu and Aladag, {Cagdas Hakan} and Ufuk Yolcu and Uslu, {Vedide R.} and Basaran, {Murat A.}",
year = "2009",
month = sep,
day = "1",
doi = "10.1016/j.eswa.2009.02.057",
language = "English",
volume = "36",
pages = "10589--10594",
journal = "Expert Systems with Applications",
issn = "0957-4174",
publisher = "Elsevier Ltd",
number = "7",

}

RIS

TY - JOUR

T1 - A new approach based on artificial neural networks for high order multivariate fuzzy time series

AU - Egrioglu, Erol

AU - Aladag, Cagdas Hakan

AU - Yolcu, Ufuk

AU - Uslu, Vedide R.

AU - Basaran, Murat A.

PY - 2009/9/1

Y1 - 2009/9/1

N2 - Fuzzy time series methods have been recently becoming very popular in forecasting. These methods can be categorized into two subclasses that are univariate and multivariate approaches. It is a known fact that real time series data can actually be affected by many factors. In this case, the using multivariate fuzzy time series forecasting model can be more reasonable in order to get more accurate forecasts. To obtain fuzzy forecasts when multivariate fuzzy time series approach is adopted, the most applied method is using tables of fuzzy relations. However, employing this method is a computationally though task. In this study, we introduce a new method that does not require using fuzzy logic relation tables in order to determine fuzzy relationships. Instead, a feed forward artificial neural network is employed to determine fuzzy relationships. The proposed method is applied to the time series data of the total number of annual car road accidents casualties in Belgium from 1974 to 2004 and a comparison is made between our proposed method and the methods proposed by Jilani and Burney [Jilani, T. A., & Burney, S. M. A. (2008). Multivariate stochastic fuzzy forecasting models. Expert Systems with Applications, 35, 691-700] and Lee et al. [Lee, L.-W., Wang, L.-H., Chen, S.-M., & Leu, Y.-H. (2006). Handling forecasting problems based on two factors high order fuzzy time series. IEEE Transactions on Fuzzy Systems, 14, 468-477].

AB - Fuzzy time series methods have been recently becoming very popular in forecasting. These methods can be categorized into two subclasses that are univariate and multivariate approaches. It is a known fact that real time series data can actually be affected by many factors. In this case, the using multivariate fuzzy time series forecasting model can be more reasonable in order to get more accurate forecasts. To obtain fuzzy forecasts when multivariate fuzzy time series approach is adopted, the most applied method is using tables of fuzzy relations. However, employing this method is a computationally though task. In this study, we introduce a new method that does not require using fuzzy logic relation tables in order to determine fuzzy relationships. Instead, a feed forward artificial neural network is employed to determine fuzzy relationships. The proposed method is applied to the time series data of the total number of annual car road accidents casualties in Belgium from 1974 to 2004 and a comparison is made between our proposed method and the methods proposed by Jilani and Burney [Jilani, T. A., & Burney, S. M. A. (2008). Multivariate stochastic fuzzy forecasting models. Expert Systems with Applications, 35, 691-700] and Lee et al. [Lee, L.-W., Wang, L.-H., Chen, S.-M., & Leu, Y.-H. (2006). Handling forecasting problems based on two factors high order fuzzy time series. IEEE Transactions on Fuzzy Systems, 14, 468-477].

KW - Artificial neural networks

KW - Forecasting

KW - Fuzzy time series

KW - Multivariate fuzzy time series approaches

U2 - 10.1016/j.eswa.2009.02.057

DO - 10.1016/j.eswa.2009.02.057

M3 - Journal article

AN - SCOPUS:67349187003

VL - 36

SP - 10589

EP - 10594

JO - Expert Systems with Applications

JF - Expert Systems with Applications

SN - 0957-4174

IS - 7

ER -