Industrial Engineering and Management Systems

  • 제8권4호
  • /
  • Pages.257-263
  • /
  • 2009
  • /
  • 1598-7248(pISSN)
  • /
  • 2234-6473(eISSN)
대한산업공학회 (Korean Institute of Industrial Engineers)
권호 표지

Estimation of Smoothing Constant of Minimum Variance and Its Application to Shipping Data with Trend Removal Method

  • 투고 : 2009.03.06
  • 심사 : 2009.11.13
  • 발행 : 2009.12.31
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초록

Focusing on the idea that the equation of exponential smoothing method (ESM) is equivalent to (1, 1) order ARMA model equation, new method of estimation of smoothing constant in exponential smoothing method is proposed before by us which satisfies minimum variance of forecasting error. Theoretical solution was derived in a simple way. Mere application of ESM does not make good forecasting accuracy for the time series which has non-linear trend and/or trend by month. A new method to cope with this issue is required. In this paper, combining the trend removal method with this method, we aim to improve forecasting accuracy. An approach to this method is executed in the following method. Trend removal by a linear function is applied to the original shipping data of consumer goods. The combination of linear and non-linear function is also introduced in trend removal. For the comparison, monthly trend is removed after that. Theoretical solution of smoothing constant of ESM is calculated for both of the monthly trend removing data and the non monthly trend removing data. Then forecasting is executed on these data. The new method shows that it is useful especially for the time series that has stable characteristics and has rather strong seasonal trend and also the case that has non-linear trend. The effectiveness of this method should be examined in various cases.

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참고문헌

  1. Brown, R. G. (1963), Smoothing, Forecasting and Prediction of Discrete -Time Series, Prentice Hall
  2. Ekern, Steinar (1982), Adaptive Exponential Smoothing Revisited, Journal of the Operational Research Society, 32(9), 775-782 https://doi.org/10.2307%2F2581393
  3. Ishii, Naohiro et al.(1991) Bilateral Exponential Smoothing of Time Series, Int. J. System Sci., 12(8), 997-988 https://doi.org/10.1080/00207728108963797
  4. Jenkins, Box (1994), Time Series Analysis Third Edition, Prentice Hall
  5. Johnston, F. R. (1993), Exponentially Weighted Moving Average (EWMA) with Irregular Updating Periods, Journal of the Operational Research Society, 44(7), 711-716 https://doi.org/10.2307%2F2584045
  6. Kobayashi, Kengo (1993), Sales Forecasting for Budgeting, Chuokeizai-Sha Publishing
  7. Maeda, Katsuro (1984), Smoothing Constant of Exponential Smoothing Method, Seikei University Report Faculty of Engineering, 38, 2477-2484
  8. Makridakis, Spyros and Winkler, Robeat L.(1983), Averages of Forecasts; Some Empirical Results, Management Science, 29(9), 987-996 https://doi.org/10.1287/mnsc.29.9.987
  9. Takeyasu, Kazuhiro and Amemiya, Takashi (2005a), Machine Diagnosis Techniques by Impact Vibration Using N-th Moment of Absolute Deterioration Factor, Industrial Engineering and Management Systems, 4(1), 68-74
  10. Takeyasu, Kazuhiro and Higuchi, Yuki (2005b), Analysis of The Behavior of Kurtosis by Simplified Model of One Sided Affiliated Impact Vibration, Industrial Engineering and Management Systems, 4(2), 192-197
  11. Takeyasu, Kazuhiro and Nagao, Kazuko (2008), Estimation of Smoothing Constant of Minimum Variance and its Application to Industrial Data, Industrial Engineering and Management Systems, 7(1), 44-50
  12. Takeyasu, Kazuhiro et al.(2003), Machine Diagnosis Techniques Simplified Calculation Method, Industrial Engineering and Management Systems, 2(1), 1-8
  13. Takeyasu, Kazuhiro (1996), System of Production, Sales and Distribution, Chuokeizai-Sha Publishing
  14. Tokumaru, Hidekatsu et al.(1982), Analysis and Measurement-Theory and Application of Random data Handling, Baifukan Publishing
  15. West, M. and Harrison, P. J. (1989), Baysian Forecasting and Dynamic Models, Springer-Verlag,New York
  16. Winters, Peter R. (1984), Forecasting Sales by Exponentially Weighted Moving Averages, Management Science, 6(3), 324-343 https://doi.org/10.1287/mnsc.6.3.324