Abstract
It is widely considered that solar energy will be one of the most competitive energy sources in the future, and solar energy currently accounts for high percentages of power generation in developed countries. However, its power generation capacity is significantly affected by several factors; therefore, accurate prediction of solar power generation is necessary. This paper proposes a photovoltaic (PV) power generation forecasting method based on ensemble empirical mode decomposition (EEMD) and variable-weight combination forecasting. First, EEMD is applied to decompose PV power data into components that are then combined into three groups: low-frequency, intermediate-frequency, and high-frequency. These three groups of sequences are individually predicted by the variable-weight combination forecasting model and added to obtain the final forecasting result. In addition, the design of the weights for combination forecasting was studied during the forecasting process. The comparison in the case study indicates that in PV power generation forecasting, the prediction results obtained by the individual forecasting and summing of the sequences after the EEMD are better than those from direct prediction. In addition, when the single prediction model is converted to a variable-weight combination forecasting model, the prediction accuracy is further improved by using the optimal weights.
Highlights
Compared with other energy sources, solar energy has advantages of universality, cleanliness, extendibility, and sustainability, and it is one of the most ideal renewable energy sources
This paper presents a PV power generation forecasting method based on ensemble empirical mode decomposition (EEMD) and a variable-weight combination forecasting model to improve PV prediction accuracy
A comparison between the case study indicates that the EEMD method can decompose the entire waveform into multiple small components, which is more conducive to forecasting and improves the prediction accuracy, and the variable-weight combination forecasting model provides a significant improvement in the prediction accuracy in comparison with the single method
Summary
Compared with other energy sources, solar energy has advantages of universality, cleanliness, extendibility, and sustainability, and it is one of the most ideal renewable energy sources. Two commonly used methods are wavelet analysis [25,26,27,28] and empirical mode decomposition (EMD) [29,30,31] Both methods can decompose the original waveform and are able to improve the prediction accuracy; both have drawbacks. This paper presents a PV power generation forecasting method based on EEMD and a variable-weight combination forecasting model to improve PV prediction accuracy. A comparison between the case study indicates that the EEMD method can decompose the entire waveform into multiple small components, which is more conducive to forecasting and improves the prediction accuracy, and the variable-weight combination forecasting model provides a significant improvement in the prediction accuracy in comparison with the single method. The solution of the weights in predictions using the harmonic mean (HM) method gives the best results
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