13th International Renewable Energy Congress - IREC 2022, Hammamet (Tunisia). 13-15 December 2022
Summary:
Wind power plants have attracted increasing attention during the last decades due to their environmental and economic benefits. However, the wind resource is inherently unpredictable, bringing important challenges to the stable and safe operation of the power grid. In this context, various computational and statistical approaches have been reported in the literature to perform short-term forecasting of wind power generation, and more efficient strategies are still demanded. In this paper, a hybrid framework that includes a statistical preprocessing stage with an enhanced deep learning (DL)-based strategy is proposed to address the limitations of reported forecasting methodologies to predict multi-seasonal wind power time series. The integrated approach applies a suitable transformation to obtain a normal distribution for data, models and removes multiple seasonalities in wind power time series. Subsequently, it supplements a set of stacked Long Short Term Memory (LSTM) Recurrent Neural Network (RNN) models for each month of the year. The proposed approach is validated using real hourly wind power data from the Spanish electricity market for the period 2008-2019. A comparative analysis with a well-established DLbased model shows the superior performance of the proposed forecasting method. The experimental evaluation is conducted for 1-3 hours ahead of wind power predictions.
Spanish layman's summary:
Se propone una estrategia híbrida que incluye una etapa de preprocesamiento estadístico con una estrategia basada en aprendizaje profundo para predecir series temporales de energía eólica multiestacionales. El enfoque se valida utilizando datos horarios reales del mercado eléctrico español.
English layman's summary:
A hybrid framework that includes a statistical preprocessing stage with an enhanced deep learning-based strategy is proposed to predict multi-seasonal wind power time series. The proposed approach is validated using real hourly wind power data from the Spanish electricity market.
Keywords: Long Short Term Memory, Deep Learning, Wind Power Forecasting, Recurrent Neural Networks, Time Series Decomposition
Published in IREC 2022, pp: 1-6, ISBN: 978-1-6654-8898-3
Publication date: 2023-01-02.
Citation:
G. Marulanda, J. Cifuentes, A. Bello, J. Reneses, Short-term wind power forecasting by a long short term memory ensemble approach, 13th International Renewable Energy Congress - IREC 2022, Hammamet (Tunisia). 13-15 December 2022. In: IREC 2022: Conference proceedings, ISBN: 978-1-6654-8898-3