Abstract
Due to the intermittency and randomness of photovoltaic (PV) power, the PV power prediction accuracy of the traditional data-driven prediction models is difficult to improve. A prediction model based on the localized emotion reconstruction emotional neural network (LERENN) is proposed, which is motivated by chaos theory and the neuropsychological theory of emotion. Firstly, the chaotic nonlinear dynamics approach is used to draw the hidden characteristics of PV power time series, and the single-step cyclic rolling localized prediction mechanism is derived. Secondly, in order to establish the correlation between the prediction model and the specific characteristics of PV power time series, the extended signal and emotional parameters are reconstructed with a relatively certain local basis. Finally, the proposed prediction model is trained and tested for single-step and three-step prediction using the actual measured data. Compared with the prediction model based on the long short-term memory (LSTM) neural network, limbic-based artificial emotional neural network (LiAENN), the back propagation neural network (BPNN), and the persistence model (PM), numerical results show that the proposed prediction model achieves better accuracy and better detection of ramp events for different weather conditions when only using PV power data.
Highlights
In response to reducing carbon emission caused by the fossil fuels and following the trend of global environmental protection, photovoltaic (PV) generation has been widely used as one of the environmentally friendly power generation alternatives
An ultra-short-term PV power prediction model with localized emotion reconstruction in the limbic-based artificial emotional neural network (LiAENN) is proposed, which is combined with the idea of phase space reconstruction in chaotic time series analysis
Compared with single-step prediction, in three-step prediction the root-mean-squared error (RMSE) mean value of the proposed model, the long short-term memory (LSTM)-based model, persistence model (PM), the LiAENN-based model, and the back propagation neural network (BPNN)-based model are increased by 17.30%, 19.67%, 21.32%, 20.29%
Summary
In response to reducing carbon emission caused by the fossil fuels and following the trend of global environmental protection, photovoltaic (PV) generation has been widely used as one of the environmentally friendly power generation alternatives. Uncertain weather conditions may cause these historical data to contain non-stationary components, which will result in high prediction errors due to improper training of the model. For all of these reasons, the accuracy of prediction results needs to be further improved. An ultra-short-term PV power prediction model with localized emotion reconstruction in the LiAENN is proposed, which is combined with the idea of phase space reconstruction in chaotic time series analysis. (c) The reconstructed extended signal and emotional parameters according to the derived single-step rolling localized prediction mechanism makes the correlation between the prediction model and the characteristics of the PV power time series more accurate, which can further improve prediction accuracy
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