Abstract
Accurate forecasting of the energy demand is crucial for the rational formulation of energy policies for energy management. In this paper, a novel ensemble forecasting model based on the artificial bee colony (ABC) algorithm for the energy demand was proposed and adopted. The ensemble model forecasts were based on multiple time variables, such as the gross domestic product (GDP), industrial structure, energy structure, technological innovation, urbanization rate, population, consumer price index, and past energy demand. The model was trained and tested using the primary energy demand data collected in China. Seven base models, including the regression-based model and machine learning models, were utilized and compared to verify the superior performance of the ensemble forecasting model proposed herein. The results revealed that (1) the proposed ensemble model is significantly superior to the benchmark prediction models and the simple average ensemble prediction model just in terms of the forecasting accuracy and hypothesis test, (2) the proposed ensemble approach with the ABC algorithm can be employed as a promising framework for energy demand forecasting in terms of the forecasting accuracy and hypothesis test, and (3) the forecasting results obtained for the future energy demand by the ensemble model revealed that the future energy demand of China will maintain a steady growth trend.
Highlights
As a strategic supply, energy is an important foundation for the development of an economy and a society [1]
The scientific accurate prediction of energy demand is crucial for the rational formulation of energy policies and the basis for ensuring the security of energy supply [5,6] while the forecasting of the energy demand is conducive to prevent energy supply risks, reduce the gap between the energy supply and demand, slow down economic cycle fluctuations, and promote sustainable economic development and social stability
The ensemble model established in this study is significantly results can be drawn as follows: (1) The ensemble model established in this study is significantly superior superior to to some some other other benchmark benchmark prediction prediction models models just just in in terms terms of ofthe theforecasting forecastingaccuracy accuracy and and hypothesis test; (2) the proposed ensemble approach with the artificial bee colony (ABC) algorithm can be employed as a promising framework for energy demand forecasting in terms of the forecasting accuracy and hypothesis test; and (3) the results for the forecasting of the future energy demand by the ensemble model revealed that the energy demand of China will maintain a steady growth trend
Summary
Energy is an important foundation for the development of an economy and a society [1]. The annual energy demand data are classified as small sample data, presenting higher requirements on the applicability of the prediction model [9] In this case, the manner in which an effective forecast model is selected, and the accurate forecasting of energy demand are crucial issues that must be focused on. Considering the merits of the ABC algorithm in seeking the best integrated solution, this paper introduces the ABC algorithm to integrate the forecasting results of the base model for accurate energy demand forecasting. It is difficult to characterize the impact of exogenous factors on energy demand in a single time series To this end, this paper considers multiple factors to establish the forecasting model of energy demand.
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