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Short-Term Solar Irradiance Forecasting Using Deep Learning Techniques: A Comprehensive Case Study

Salwan Tajjour, Shyam Singh Chandel, Majed A. Alotaibi, Hasmat Malik, Fausto Pedro Garcı́a Márquez, Asyraf Afthanorhan

2023IEEE Access70 citationsDOIOpen Access PDF

Abstract

Reliable estimation of solar irradiance is required for many solar energy applications such as photovoltaics, water heating, cooking, solar microgrids, etc. Deep Learning techniques have shown outstanding behaviour for analysing complex datasets efficiently with high accuracy. Multi-Layer Perceptron, Long-Short Term Memory, and Gated Recurrent Unit techniques are found to be the most competitive techniques in the literature for solar irradiance forecasting. Therefore, in this study, a comparative analysis of those models is carried out using eleven years of NASA satellite data for training and testing. The grid search technique is used to optimize the networks architectures to ensure the best performance of the models for forecasting daily global solar irradiance. The results show that all models have almost the same accuracy with a mean square error close to 0.017 kWh/m2/day. However, the speed of training and the complexity differ for each model. The MLP is found to be the most efficient model due to using a low number of parameters. The study is of importance for reliable solar irradiance forecasting for any location worldwide.

Topics & Concepts

Solar irradianceIrradianceComputer scienceTerm (time)Multilayer perceptronSolar energyPerceptronArtificial neural networkMeteorologyPhotovoltaicsEnvironmental sciencePhotovoltaic systemArtificial intelligenceEngineeringPhysicsQuantum mechanicsElectrical engineeringSolar Radiation and PhotovoltaicsPhotovoltaic System Optimization TechniquesEnergy Load and Power Forecasting
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