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Multivariate Deep Learning Long Short-Term Memory-Based Forecasting for Microgrid Energy Management Systems

Farid Moazzen, M. J. Hossain

2024Energies15 citationsDOIOpen Access PDF

Abstract

In the scope of energy management systems (EMSs) for microgrids, the forecasting module stands out as an essential element, significantly influencing the efficacy of optimal solution policies. Forecasts for consumption, generation, and market prices play a crucial role in both day-ahead and real-time decision-making processes within EMSs. This paper aims to develop a machine learning-based multivariate forecasting methodology to account for the intricate interplay pertaining to these variables from the perspective of day-ahead energy management. Specifically, our approach delves into the dynamic relationship between load demand variations and electricity price fluctuations within the microgrid EMSs. The investigation involves a comparative analysis and evaluation of recurrent neural networks’ performance to recognize the most effective technique for the forecasting module of microgrid EMSs. This study includes approaches based on Long Short-Term Memory Neural Networks (LSTMs), with architectures ranging from Vanilla LSTM, Stacked LSTM, Bi-directional LSTM, and Convolution LSTM to attention-based models. The empirical study involves analyzing real-world time-series data sourced from the Australian Energy Market (AEM), specifically focusing on historical data from the NSW state. The findings indicate that while the Triple-Stacked LSTM demonstrates superior performance for this application, it does not necessarily lead to more optimal operational costs, with forecast inaccuracies potentially causing deviations of up to forty percent from the optimal cost.

Topics & Concepts

MicrogridLong short term memoryMultivariate statisticsTerm (time)Computer scienceEnergy management systemArtificial intelligenceEnergy (signal processing)Energy managementMachine learningControl (management)Artificial neural networkMathematicsStatisticsRecurrent neural networkQuantum mechanicsPhysicsEnergy Load and Power ForecastingSmart Grid Energy ManagementOptimal Power Flow Distribution
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