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A Novel Seasonal Fuzzy Time Series Method

Year 2012, Volume: 41 Issue: 3, 375 - 385, 01.03.2012

Abstract

References

  • Aladag, C. H., Basaran, M. A., Egrioglu E., Yolcu, U. and Uslu V. R. Forecasting in high order fuzzy time series by using neural networks to define fuzzy relations, Expert Systems with Applications 36, 4228–4231, 2009.
  • Bezdek, J. C. Pattern recognition with fuzzy objective function algorithms (Plenum Press, New York, 1981).
  • Box, G. E. P. and Jenkins, G. M. Time series analysis: Forecasting and control (Holdan-Day, CA, 1976).
  • Chen, S. M. Forecasting enrollments based on fuzzy time series, Fuzzy Sets and Systems 81, 311–319, 1996.
  • Chen, S. M. Forecasting enrollments based on high order fuzzy time series, Cybernetics and Systems 33, 1–16, 2002.
  • Davari, S., Zarandi, M. H. F. and Turksen, I. B. An Improved fuzzy time series forecasting model based on particle swarm intervalization(The 28thNorth American Fuzzy Information Processing Society Annual Conferences (NAFIPS 2009)), Cincinnati, Ohio, USA, June 14– 17, 2009.
  • Egrioglu, E., Aladag, C.H., Yolcu, U., Uslu, V. R. and Basaran, M. A. A new approach based on artificial neural networks for high order multivariate fuzzy time series, Expert Systems with Applications 36, 10589–10594, 2009.
  • Egrioglu, E., Aladag, C.H., Yolcu, U., Uslu, V. R. and Basaran, M. A. Finding an optimal interval length in high order fuzzy time series, Expert Systems with Applications 37, 5052– 5055, 2010.
  • Egrioglu, E., Uslu, V. R., Yolcu, U., Basaran, M.A. and Aladag, C.H. A new approach based on artificial neural networks for high order bivariate fuzzy time series, J.Mehnen et al. (Eds.): Applications of Soft Computing, AISC 58 (Springer-Verlag, Berlin, 2009), 265–273.
  • Egrioglu, E., Aladag, C.H., Yolcu, U., Basaran, M.A. and Uslu, V.R. A new hybrid approach based on SARIMA and partial high order bivariate fuzzy time series forecasting model, Expert Systems with Applications 36, 7424–7434, 2009.
  • G¨unay, S., Egrioglu, E. and Aladag, C¸ . H. Introduction to single variable time series analysis (Hacettepe University Press, Ankara, 2007).
  • Huarng, K. Effective length of intervals to improve forecasting in fuzzy time series, Fuzzy Sets and Systems 123, 387–394, 2001.
  • Huarng, K. and Yu, T. H. -K. Ratio-based lengths of intervals to improve fuzzy time series forecasting, IEEE Transactions on Systems, Man, and Cybernetics-Part B: Cybernetics 36, 328–340, 2006.
  • Hsu, L. -Y., Horng, S. -J., Kao, T. -W., Chen, Y. -H., Run, R. -S, Chen, R. -J., Lai, J. -L. and Kuo, I. -H. Temperature prediction and TAIFEX forecasting based on fuzzy relationships and MTPSO techniques, Expert Systems with Applications 37, 2756–2770, 2010.
  • Jilani, T.A., Burney, S.M.A. and Ardil, C. Multivariate high order fuzzy time series fore- casting for car road accidents, International Journal of Computational Intelligence 4 (1), 15-20, 2007.
  • Kuo, I. -H., Horng, S. -J., Chen, Y. -H., Run, R. -S., Kao, T. -W., Chen, R. -J., Lai, J. -L. and Lin, T. -L. Forecasting TAIFEX based on fuzzy time series and particle swarm optimization, Expert Systems with Applications 37, 1494–1502, 2010.
  • Kuo, I. -H., Horng, S. -J., Kao, T. -W., Lin, T. -L., Lee, C. -L. and Pan, Y. An improved method for forecasting enrollments based on fuzzy time series and particle swarm optimiza- tion, Expert Systems with Applications 36, 6108–6117, 2009.
  • Park, J. -I., Lee, D. -J., Song, C. -K. and Chun, M. -G. TAIFEX and KOSPI 200 forecasting based on two factors high order fuzzy time series and particle swarm optimization, Expert Systems with Applications 37, 959–967, 2010.
  • Song, Q. Seasonal forecasting in fuzzy time series, Fuzzy Sets and Systems 107 (2), 235, 1999.
  • Song, Q. and Chissom, B.S. Fuzzy time series and its models, Fuzzy Sets and Systems 54, 269-277, 1993.
  • Song, Q. and Chissom, B.S. Forecasting enrollments with fuzzy time series-Part I, Fuzzy Sets and Systems 54, 1-10, 1993.
  • Song, Q. and Chissom, B.S. Forecasting enrollments with fuzzy time series-Part II, Fuzzy Sets and Systems 62, 1-8, 1994.
  • Uslu, V.R., Aladag, C.H., Yolcu, U. and Egrioglu, E. A new hybrid approach for forecasting a seasonal fuzzy time series. 1stInternational Symposium On Computing In Science & Engineering (Izmir-Turkey, 2010).
  • Yolcu, U., Egrioglu, E., Uslu, V. R., Basaran, M. A. and Aladag, C. H. A new approach for determining the length of intervals for fuzzy time series, Applied Soft Computing 9, 647–651, 2009.
  • Yu, T. H. -K. and Huarng, K. -H. A neural network-based fuzzy time series model to improve forecasting, Expert Systems with Applications 37, 3366–3372, 2010.
  • Zadeh, L. A. Fuzzy sets, Inform. and Control 8, 338–353, 1965.
  • Zhang, G. Patuwo, B. E. and Hu, Y. M. Forecasting with artificial neural networks: the state of the art, International Journal of Forecasting 14, 35–62, 1998.
  • Zurada, J. M. Introduction of Artificial Neural Systems (West Publishing, St. Paul, 1992).

A Novel Seasonal Fuzzy Time Series Method

Year 2012, Volume: 41 Issue: 3, 375 - 385, 01.03.2012

Abstract

Fuzzy time series forecasting methods, which have been widely studied in recent years, do not require constraints as found in conventional approaches. On the other hand, most of the time series encountered in real life should be considered as fuzzy time series due to the vagueness that they contain. Although numerous methods have been proposed for the analysis of time series in the literature, these methods fail to forecast seasonal fuzzy time series. The limited number of seasonal fuzzy time series methods consider only the fuzzy set having the highest membership value, rather than the membership value of observations belonging to each fuzzy set. This is contrary to fuzzy set theory and causes information loss, thus affecting forecasting performance negatively. In this study, a new seasonal fuzzy time series method which considers the membership value of the observations belonging to each set in both forecasting fuzzy relations and in the defuzzification step is proposed. The proposed method is applied to a real seasonal time series.

References

  • Aladag, C. H., Basaran, M. A., Egrioglu E., Yolcu, U. and Uslu V. R. Forecasting in high order fuzzy time series by using neural networks to define fuzzy relations, Expert Systems with Applications 36, 4228–4231, 2009.
  • Bezdek, J. C. Pattern recognition with fuzzy objective function algorithms (Plenum Press, New York, 1981).
  • Box, G. E. P. and Jenkins, G. M. Time series analysis: Forecasting and control (Holdan-Day, CA, 1976).
  • Chen, S. M. Forecasting enrollments based on fuzzy time series, Fuzzy Sets and Systems 81, 311–319, 1996.
  • Chen, S. M. Forecasting enrollments based on high order fuzzy time series, Cybernetics and Systems 33, 1–16, 2002.
  • Davari, S., Zarandi, M. H. F. and Turksen, I. B. An Improved fuzzy time series forecasting model based on particle swarm intervalization(The 28thNorth American Fuzzy Information Processing Society Annual Conferences (NAFIPS 2009)), Cincinnati, Ohio, USA, June 14– 17, 2009.
  • Egrioglu, E., Aladag, C.H., Yolcu, U., Uslu, V. R. and Basaran, M. A. A new approach based on artificial neural networks for high order multivariate fuzzy time series, Expert Systems with Applications 36, 10589–10594, 2009.
  • Egrioglu, E., Aladag, C.H., Yolcu, U., Uslu, V. R. and Basaran, M. A. Finding an optimal interval length in high order fuzzy time series, Expert Systems with Applications 37, 5052– 5055, 2010.
  • Egrioglu, E., Uslu, V. R., Yolcu, U., Basaran, M.A. and Aladag, C.H. A new approach based on artificial neural networks for high order bivariate fuzzy time series, J.Mehnen et al. (Eds.): Applications of Soft Computing, AISC 58 (Springer-Verlag, Berlin, 2009), 265–273.
  • Egrioglu, E., Aladag, C.H., Yolcu, U., Basaran, M.A. and Uslu, V.R. A new hybrid approach based on SARIMA and partial high order bivariate fuzzy time series forecasting model, Expert Systems with Applications 36, 7424–7434, 2009.
  • G¨unay, S., Egrioglu, E. and Aladag, C¸ . H. Introduction to single variable time series analysis (Hacettepe University Press, Ankara, 2007).
  • Huarng, K. Effective length of intervals to improve forecasting in fuzzy time series, Fuzzy Sets and Systems 123, 387–394, 2001.
  • Huarng, K. and Yu, T. H. -K. Ratio-based lengths of intervals to improve fuzzy time series forecasting, IEEE Transactions on Systems, Man, and Cybernetics-Part B: Cybernetics 36, 328–340, 2006.
  • Hsu, L. -Y., Horng, S. -J., Kao, T. -W., Chen, Y. -H., Run, R. -S, Chen, R. -J., Lai, J. -L. and Kuo, I. -H. Temperature prediction and TAIFEX forecasting based on fuzzy relationships and MTPSO techniques, Expert Systems with Applications 37, 2756–2770, 2010.
  • Jilani, T.A., Burney, S.M.A. and Ardil, C. Multivariate high order fuzzy time series fore- casting for car road accidents, International Journal of Computational Intelligence 4 (1), 15-20, 2007.
  • Kuo, I. -H., Horng, S. -J., Chen, Y. -H., Run, R. -S., Kao, T. -W., Chen, R. -J., Lai, J. -L. and Lin, T. -L. Forecasting TAIFEX based on fuzzy time series and particle swarm optimization, Expert Systems with Applications 37, 1494–1502, 2010.
  • Kuo, I. -H., Horng, S. -J., Kao, T. -W., Lin, T. -L., Lee, C. -L. and Pan, Y. An improved method for forecasting enrollments based on fuzzy time series and particle swarm optimiza- tion, Expert Systems with Applications 36, 6108–6117, 2009.
  • Park, J. -I., Lee, D. -J., Song, C. -K. and Chun, M. -G. TAIFEX and KOSPI 200 forecasting based on two factors high order fuzzy time series and particle swarm optimization, Expert Systems with Applications 37, 959–967, 2010.
  • Song, Q. Seasonal forecasting in fuzzy time series, Fuzzy Sets and Systems 107 (2), 235, 1999.
  • Song, Q. and Chissom, B.S. Fuzzy time series and its models, Fuzzy Sets and Systems 54, 269-277, 1993.
  • Song, Q. and Chissom, B.S. Forecasting enrollments with fuzzy time series-Part I, Fuzzy Sets and Systems 54, 1-10, 1993.
  • Song, Q. and Chissom, B.S. Forecasting enrollments with fuzzy time series-Part II, Fuzzy Sets and Systems 62, 1-8, 1994.
  • Uslu, V.R., Aladag, C.H., Yolcu, U. and Egrioglu, E. A new hybrid approach for forecasting a seasonal fuzzy time series. 1stInternational Symposium On Computing In Science & Engineering (Izmir-Turkey, 2010).
  • Yolcu, U., Egrioglu, E., Uslu, V. R., Basaran, M. A. and Aladag, C. H. A new approach for determining the length of intervals for fuzzy time series, Applied Soft Computing 9, 647–651, 2009.
  • Yu, T. H. -K. and Huarng, K. -H. A neural network-based fuzzy time series model to improve forecasting, Expert Systems with Applications 37, 3366–3372, 2010.
  • Zadeh, L. A. Fuzzy sets, Inform. and Control 8, 338–353, 1965.
  • Zhang, G. Patuwo, B. E. and Hu, Y. M. Forecasting with artificial neural networks: the state of the art, International Journal of Forecasting 14, 35–62, 1998.
  • Zurada, J. M. Introduction of Artificial Neural Systems (West Publishing, St. Paul, 1992).
There are 28 citations in total.

Details

Primary Language English
Subjects Statistics
Journal Section Mathematics
Authors

Faruk Alpaslan This is me

Ozge Cagcag This is me

C.h. Aladag This is me

U. Yolcu This is me

E. Egrioglu This is me

Publication Date March 1, 2012
Published in Issue Year 2012 Volume: 41 Issue: 3

Cite

APA Alpaslan, F., Cagcag, O., Aladag, C., Yolcu, U., et al. (2012). A Novel Seasonal Fuzzy Time Series Method. Hacettepe Journal of Mathematics and Statistics, 41(3), 375-385.
AMA Alpaslan F, Cagcag O, Aladag C, Yolcu U, Egrioglu E. A Novel Seasonal Fuzzy Time Series Method. Hacettepe Journal of Mathematics and Statistics. March 2012;41(3):375-385.
Chicago Alpaslan, Faruk, Ozge Cagcag, C.h. Aladag, U. Yolcu, and E. Egrioglu. “A Novel Seasonal Fuzzy Time Series Method”. Hacettepe Journal of Mathematics and Statistics 41, no. 3 (March 2012): 375-85.
EndNote Alpaslan F, Cagcag O, Aladag C, Yolcu U, Egrioglu E (March 1, 2012) A Novel Seasonal Fuzzy Time Series Method. Hacettepe Journal of Mathematics and Statistics 41 3 375–385.
IEEE F. Alpaslan, O. Cagcag, C. Aladag, U. Yolcu, and E. Egrioglu, “A Novel Seasonal Fuzzy Time Series Method”, Hacettepe Journal of Mathematics and Statistics, vol. 41, no. 3, pp. 375–385, 2012.
ISNAD Alpaslan, Faruk et al. “A Novel Seasonal Fuzzy Time Series Method”. Hacettepe Journal of Mathematics and Statistics 41/3 (March 2012), 375-385.
JAMA Alpaslan F, Cagcag O, Aladag C, Yolcu U, Egrioglu E. A Novel Seasonal Fuzzy Time Series Method. Hacettepe Journal of Mathematics and Statistics. 2012;41:375–385.
MLA Alpaslan, Faruk et al. “A Novel Seasonal Fuzzy Time Series Method”. Hacettepe Journal of Mathematics and Statistics, vol. 41, no. 3, 2012, pp. 375-8.
Vancouver Alpaslan F, Cagcag O, Aladag C, Yolcu U, Egrioglu E. A Novel Seasonal Fuzzy Time Series Method. Hacettepe Journal of Mathematics and Statistics. 2012;41(3):375-8.