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Chung-Ang University Researchers Use Deep Learning to Develop a Forecasting Model for Efficiently Managing Electric Grids

Climate change is a major environmental challenge of our time. It is accelerating due to excessive carbon emissions from non-renewable energy sources, including fossil fuels. Given these circumstances, governments worldwide are framing policies to achieve carbon neutrality by promoting green energy. This has led to the development of various renewable energy sources (RESs) – solar panels, windmills, and turbines – as a substitute for fossil fuels. Interconnecting these RESs to power supply networks is necessary. In this regard, microgrids (MGs), which integrate renewable and non-renewable energy sources and energy storage systems, are a promising solution. But, their efficient operation is challenging owing to the unsteady availability and uncertainties of RESs. For instance, RESs based on solar energy cannot perform efficiently on cloudy days.

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As a result, MG operators cannot bid profitably in the day-ahead energy market where they must promise energy supply for the next day. Thus, there exists an evident need to precisely predict uncertainties in RESs, their energy demand, and the market prices. Existing conventional prediction methods consider various possible future scenarios and their probabilities. This approach has several drawbacks, including a low prediction accuracy. To overcome them, researchers have resorted to deep learning-based models. While they make accurate predictions, their hyperparameters – variables that control the learning process – must be appropriately optimized.

Against this backdrop, Professor Mun-Kyeom Kim of the Department of Energy System Engineering at Chung-Ang University, Korea, in collaboration with Mr. Hyung-Joon Kim, recently proposed a novel deep learning-based forecasting model to accurately predict the uncertain parameters for optimal and profitable microgrid operation. Their work was made available online on 21 December 2022 and published in Volume 332 of the journal Applied Energy.

“The proposed data-driven forecasting method employs a long short-term memory (LSTM) model, an artificial neural network with feedback connections. Its hyperparameters are optimized by a genetic algorithm-adaptive weight particle swarm optimization (GA-AWPSO) algorithm, while a global attention mechanism (GAM) identifies important features from input parameter data,” explains Prof. Kim. “Both these algorithms can help overcome the limitations of the conventional methods and improve the prediction accuracy and efficiency of the LSTM model.”

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In their work, the researchers also developed a data mining and incentive-based demand response (DM-CIDR) program for handling uncertainties pertaining to energy demand and market prices. Herein, ordering points to identify the clustering structure (OPTICS) and k-nearest neighbor (k-NN) algorithms were used to determine the optimal incentive rates for customers in the day-ahead energy market.

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To demonstrate the performance of their GA-AWPSO-LSTM-GAM model and DM-CIDR program, the researchers implemented them on the historical PennsylvaniaNew JerseyMaryland(PJM) Interconnection energy market data. The model had a lower forecasting error than existing prediction models and provided the best correlation values for predicting the availability of RESs. In particular, it obtained a coefficient of determination value of 0.96 for solar panels, surpassing that obtained from the existing models.

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