Abstract
Wind power prediction is of great importance in enhancing wind energy penetration. This paper proposes a novel wind power prediction method which combining three-level decomposition with optimized prediction method. In the decomposition part, the Wavelet Packet Decomposition (WPD) is introduced as the first level decomposition, then the obtained sub-series are further decomposed by Variable Mode Decomposition (VMD). At last, Singular Spectrum Analysis (SSA) is carried out for each Intrinsic Mode Function (IMF), and the dominant component and residual components are separated as the input of the prediction. In the prediction part, Kernel Extreme Learning Machine (KELM) is adopted to complete the multi-steps wind power prediction. In this paper, an Improved Grey Wolf Optimization (IGWO) algorithm with redesign of the hierarchy and architecture is proposed, which especially suitable for optimizing wind power prediction. Finally, ten different models are compared, and the results show that the proposed method in this paper can extract the trend information of wind power greatly and has achieved excellent accuracy in short-term wind power prediction.
Highlights
High intermittency and large capacity of wind power set up a new challenge for the power system
A novel combination of three-level decomposition method and optimized prediction method is proposed in this paper
We introduced the Wavelet Packet Decomposition (WPD) as the first level decomposition, the obtained sub-layer is decomposed by Variable Mode Decomposition (VMD)
Summary
High intermittency and large capacity of wind power set up a new challenge for the power system. Machine learning method has been widely applied in wind power prediction for its splendid performance in fitting nonlinear time series. In [27], the Improved Extreme Learning machine method was proposed to satisfy the need for short-term wind power prediction. Fu et al [30] used a hybrid Grey Wolf Optimized Sine Cosine Algorithm (GWO-SCA) to optimize the input parameters of ELM, the combined method showed superior advantages than the compared method in wind speed forecasting. Due to the limitation of calculation time, there is less research working on three-level decomposition and parameter optimization in wind power prediction. The main purpose of this paper is to apply the decomposition method and optimization method synthetically in order to eliminate the randomness of wind power time series and improve the accuracy of short-term wind power prediction.
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