Article: Ranking of univariate forecasting techniques for seasonal time series using analytical hierarchy process Journal: International Journal of Industrial and Systems Engineering (IJISE) 2020 Vol.35 No.2 pp.196 - 215 Abstract: The choice of a suitable forecasting method carries noteworthy significance for organisations in adequately accomplishing their business targets. The selection of forecasting method becomes more sophisticated when there is a significant impact of seasonality on the business of an organisation. To deal with the situation of selecting the most relevant forecasting method for seasonal data, this paper proposes a framework using analytical hierarchy process (AHP) to rank various forecasting techniques for long time series. Accuracy measures namely Theil's U, mean absolute error (MAE), root mean square error (RMSE) and mean absolute percentage error (MAPE) are used as AHP criteria for performance measurement of various univariate time series methods such as naïve + season level trend (SLT), error, trend, seasonal (ETS), seasonal autoregressive moving average (SARIMA), exponential smoothing state space model with Box-Cox transformation (BATS) and trigonometric exponential smoothing state space model with Box-Cox transformation (TBATS) for seasonal data. The proposed framework is validated through real-time data provided by a public sector company in India. Ranking obtained from the developed AHP framework suggests that SARIMA is ranked top amongst all the techniques for short-term forecasting of seasonal data. Inderscience Publishers - linking academia, business and industry through research

Title: Ranking of univariate forecasting techniques for seasonal time series using analytical hierarchy process

Authors: Iram Naim; Tripti Mahara; Sharfuddin Ahmed Khan

Addresses: Department of Polymer and Process Engineering, IIT, Roorkee, India ' Department of Polymer and Process Engineering, IIT, Roorkee, India ' Industrial Engineering and Engineering Management Department, University of Sharjah, P.O. Box 27272, Sharjah, United Arab Emirates

Abstract: The choice of a suitable forecasting method carries noteworthy significance for organisations in adequately accomplishing their business targets. The selection of forecasting method becomes more sophisticated when there is a significant impact of seasonality on the business of an organisation. To deal with the situation of selecting the most relevant forecasting method for seasonal data, this paper proposes a framework using analytical hierarchy process (AHP) to rank various forecasting techniques for long time series. Accuracy measures namely Theil's U, mean absolute error (MAE), root mean square error (RMSE) and mean absolute percentage error (MAPE) are used as AHP criteria for performance measurement of various univariate time series methods such as naïve + season level trend (SLT), error, trend, seasonal (ETS), seasonal autoregressive moving average (SARIMA), exponential smoothing state space model with Box-Cox transformation (BATS) and trigonometric exponential smoothing state space model with Box-Cox transformation (TBATS) for seasonal data. The proposed framework is validated through real-time data provided by a public sector company in India. Ranking obtained from the developed AHP framework suggests that SARIMA is ranked top amongst all the techniques for short-term forecasting of seasonal data.

Keywords: time series analysis; forecasting; analytical hierarchy process; AHP; seasonality; TBATS; seasonal autoregressive moving average; SARIMA; accuracy measures.

DOI: 10.1504/IJISE.2020.107581

International Journal of Industrial and Systems Engineering, 2020 Vol.35 No.2, pp.196 - 215

Received: 14 Sep 2018
Accepted: 01 Nov 2018
Published online: 01 Jun 2020 *

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Title: Ranking of univariate forecasting techniques for seasonal time series using analytical hierarchy process

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