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How Does Neural Network Model Capacity Affect Photovoltaic Power Prediction? A Study Case.

Carlos Henrique Torres de AndradeGustavo Costa Gomes de MeloTiago Figueiredo VieiraÍcaro Bezerra Queiroz de AraújoAllan de Medeiros MartinsIgor Cavalcante TorresDavi Bibiano BritoAlana Kelly Xavier Santos
Published in: Sensors (Basel, Switzerland) (2023)
The use of models capable of forecasting the production of photovoltaic (PV) energy is essential to guarantee the best possible integration of this energy source into traditional distribution grids. Long Short-Term Memory networks (LSTMs) are commonly used for this purpose, but their use may not be the better option due to their great computational complexity and slower inference and training time. Thus, in this work, we seek to evaluate the use of neural networks MLPs (Multilayer Perceptron), Recurrent Neural Networks (RNNs), and LSTMs, for the forecast of 5 min of photovoltaic energy production. Each iteration of the predictions uses the last 120 min of data collected from the PV system (power, irradiation, and PV cell temperature), measured from 2019 to mid-2022 in Maceió (Brazil). In addition, Bayesian hyperparameters optimization was used to obtain the best of each model and compare them on an equal footing. Results showed that the MLP performs satisfactorily, requiring much less time to train and forecast, indicating that they can be a better option when dealing with a very short-term forecast in specific contexts, for example, in systems with little computational resources.
Keyphrases
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