Abstract
Accurate electricity price forecasting plays an important role in the profits of electricity market participants and the healthy development of electricity market. However, the electricity price time series hold the characteristics of volatility and randomness, which make it quite hard to forecast electricity price accurately. In this paper, a novel hybrid model for electricity price forecasting was proposed combining Beveridge-Nelson decomposition (BND) method, fruit fly optimization algorithm (FOA), and least square support vector machine (LSSVM) model, namely BND-FOA-LSSVM model. Firstly, the original electricity price time series were decomposed into deterministic term, periodic term, and stochastic term by using BND model. Then, these three decomposed terms were forecasted by employing LSSVM model, respectively. Meanwhile, to improve the forecasting performance, a new swarm intelligence optimization algorithm FOA was used to automatically determine the optimal parameters of LSSVM model for deterministic term forecasting, periodic term forecasting, and stochastic term forecasting. Finally, the forecasting result of electricity price can be obtained by multiplying the forecasting values of these three terms. The results show the mean absolute percentage error (MAPE), root mean square error (RMSE) and mean absolute error (MAE) of the proposed BND-FOA-LSSVM model are respectively 3.48%, 11.18 Yuan/MWh and 9.95 Yuan/MWh, which are much smaller than that of LSSVM, BND-LSSVM, FOA-LSSVM, auto-regressive integrated moving average (ARIMA), and empirical mode decomposition (EMD)-FOA-LSSVM models. The proposed BND-FOA-LSSVM model is effective and practical for electricity price forecasting, which can improve the electricity price forecasting accuracy.
Highlights
With the constant advance of electricity market reform, electricity price forecasting has become an important and valuable tool [1]
The results show the mean absolute percentage error (MAPE), root mean square error (RMSE) and mean absolute error (MAE) of the proposed Beveridge-Nelson decomposition (BND)-fly optimization algorithm (FOA)-least square support vector machine (LSSVM) model are respectively 3.48%, 11.18 Yuan/MWh and 9.95 Yuan/MWh, which are much smaller than that of LSSVM, BND-LSSVM, FOA-LSSVM, auto-regressive integrated moving average (ARIMA), and empirical mode decomposition (EMD)-FOA-LSSVM models
ThatThat is toissay, for the term term forecasting, the deterministic at the same last month,yesterday yesterdayand andthe the day day before forecasting, the deterministic termterm at the same dayday of of last month, yesterday will be treated as the input variables of the FOA-LSSVM-based electricity price forecasting model; for the periodic term forecasting, the periodic term at the same day of last month, yesterday
Summary
With the constant advance of electricity market reform, electricity price forecasting has become an important and valuable tool [1]. They should submit the bidding curves according to accurately forecasted electricity price, which can reduce the market risk and maximize their profits. They need optimally allocate the purchasing electricity in spot market and bilateral contract market according to accurately forecasted electricity price. They use the forecasted electricity price information to supervise the electricity market, which can guarantee the healthy and sustainable development of electricity market. Accurate electricity price forecasting is quite important, which has become common concerns of electricity market participants [2]
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