Abstract
To improve forecasting accuracy for photovoltaic (PV) power output, this paper proposes a hybrid method for forecasting the short-term PV power output. First, by introducing the noise level, an improved complementary ensemble empirical mode decomposition (EEMD) with adaptive noise (ICEEMDAN) is developed to determine the ensemble size and amplitude of the added white noise adaptively. ICEEMDAN can change PV power output with non-symmetry into intrinsic mode functions (IMFs) with symmetry. ICEEMDAN can enhance the forecasting accuracy for PV power by IMFs with physical meaning (not including spurious modes). Second, the selection method of relative modes (IF), which is determined by the comprehensive factor, including the shape factor, crest factor and Kurtosis, is introduced to adaptively classify the IMFs into groups including similar fluctuating components. The IF can avoid the drawbacks of threshold determination by an empirical method. Third, the modified particle swarm optimization (PSO) (MPSO) is proposed to optimize the hyper-parameters in the support vector machine (SVM) by introducing the piecewise inertial weight. MPSO can improve the global and local search ability to make the particles traverse the global space and strengthen the performance of local convergence. Finally, the proposed method (ICEEMDAN-IF-MPSO-SVM) is used to forecast the PV power output of each group individually, and then, the single forecasting result is reconstructed to obtain the desired forecasting result for PV power output. By comparison with the other typical methods, the proposed method is more suitable for forecasting PV power output.
Highlights
With the rapid development of science and technology, energy demand has become more and more important [1,2]
To solve the above-mentioned problem, this paper develops a hybrid method based on an improved CEEDMAN (ICEEMDAN), the identification of specified intrinsic mode functions (IMFs) and the support vector machine (SVM)
This method applies the ICEEMDAN to decompose the PV power output into a set of IMFs, the IMFs are divided into different groups, each group is considered as the “original” PV power output, and each “original”
Summary
With the rapid development of science and technology, energy demand has become more and more important [1,2]. To solve the above-mentioned problem, this paper develops a hybrid method based on an improved CEEDMAN (ICEEMDAN), the identification of specified IMFs and the SVM. This method applies the ICEEMDAN to decompose the PV power output into a set of IMFs, the IMFs are divided into different groups, each group is considered as the “original” PV power output, and each “original”. The reasonable identification of specified IMFs. The identified method based on the correlation between the PV power output data and each IMF is proposed to divide the IMFs into the corresponding groups adaptively.
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