A day-ahead PV power forecasting method based on LSTM-RNN model and time correlation modification under partial daily pattern prediction framework

•Photovoltaic power presents volatility, annual periodicity, and adjacent similarity.•Deep learning and time correlation principles are combined in a forecasting problem.•Time correlation modification improves the accuracy of LSTM-RNN forecasting model.•Partial daily pattern prediction can be used t...

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Veröffentlicht in:Energy conversion and management 2020-05, Vol.212, p.112766, Article 112766
Hauptverfasser: Wang, Fei, Xuan, Zhiming, Zhen, Zhao, Li, Kangping, Wang, Tieqiang, Shi, Min
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Sprache:eng
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Zusammenfassung:•Photovoltaic power presents volatility, annual periodicity, and adjacent similarity.•Deep learning and time correlation principles are combined in a forecasting problem.•Time correlation modification improves the accuracy of LSTM-RNN forecasting model.•Partial daily pattern prediction can be used to optimize the modification process. Photovoltaic (PV) power generation is an effective means to realize solar energy utilization. Due to the natural characteristics of random fluctuations in solar energy, the applications of PV power such as grid-connected PV power plant, distributed PVs, and building integrated PVs will introduce new characteristics to the generation and load side of the power grid. Therefore, accurate day-ahead PV power forecasting is of great significance for enabling grid manager to achieve PV power output data in advance and mitigate the influence of random fluctuations. To tackle the deficiencies of conventional artificial intelligence (AI) modeling methods such as overfitting problem and insufficient generalization ability to complex nonlinear modeling, a day-ahead PV power forecasting model assembled by fusing deep learning modeling and time correlation principles under a partial daily pattern prediction (PDPP) framework is proposed. First, an independent day-ahead PV power forecasting model based on long-short-term memory recurrent neural network (LSTM-RNN) is established. Second, a modification method is proposed to update the forecasting results of LSTM-RNN model based on time correlation principles regarding different patterns of PV power in the forecasting day. Third, a partial daily pattern prediction (PDPP) framework is proposed to provide accurate daily pattern prediction information of particular days, which is used to guide the modification parameters. Simulation results show that the proposed forecasting method with time correlation modification (TCM) is more accurate than the individual LSTM-RNN model, and the performance of the forecasting model can be further improved for those days with accurate daily pattern predictions under the proposed PDPP framework.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2020.112766