Abstract
Wind power generation has presented an important development around the world. However, its integration into electrical systems presents numerous challenges due to the variable nature of the wind. Therefore, to maintain an economical and reliable electricity supply, it is necessary to accurately predict wind generation. The Wind Power Prediction Tool (WPPT) has been proposed to solve this task using the power curve associated with a wind farm. Recurrent Neural Networks (RNNs) model complex non-linear relationships without requiring explicit mathematical expressions that relate the variables involved. In particular, two types of RNN, Long Short-Term Memory (LSTM) and Echo State Network (ESN), have shown good results in time series forecasting. In this work, we present an LSTM+ESN architecture that combines the characteristics of both networks. An architecture similar to an ESN is proposed, but using LSTM blocks as units in the hidden layer. The training process of this network has two key stages: (i) the hidden layer is trained with a descending gradient method online using one epoch; (ii) the output layer is adjusted with a regularized regression. In particular, the case is proposed where Step (i) is used as a target for the input signal, in order to extract characteristics automatically as the autoencoder approach; and in the second stage (ii), a quantile regression is used in order to obtain a robust estimate of the expected target. The experimental results show that LSTM+ESN using the autoencoder and quantile regression outperforms the WPPT model in all global metrics used.
Highlights
In many countries around the world, renewable energies are gradually replacing traditional energy sources, mainly because of the unprecedented and irreversible environmental damage caused by fossil and nuclear fuels and the continuing reduction of renewable technology costs [1,2].Among the main sources of renewable energies, wind energy has presented an important development, being an attractive alternative in terms of its costs and low environmental impact [3]
We can mention LocalPred, which is a forecast system built by the National Renewable Energy Centre (CENER), located in Spain, designed for complex terrains that integrates the results of several Numerical Weather Prediction (NWP) models
Since M1 does not use either Quantile Regression (QR) or the autoencoder inspired approach, we can note that both artifacts improve the performance of the
Summary
Among the main sources of renewable energies, wind energy has presented an important development, being an attractive alternative in terms of its costs and low environmental impact [3]. The integration of wind power into electrical systems presents several challenges due to its uncertainty and variability, as its generation depends on a stochastically-behaved primary energy resource [4]. Energies 2018, 11, 526 shortage, which decreases its reliability This issue limits wind power penetration since it may put at risk the planning and economic operation of the electricity markets, as well as the safety and reliability of the power system. Forecasting tools that precisely describe and predict wind power generation behavior are critical in keeping the electricity supply economical and reliable
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