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An innovative machine learning based on feed-forward artificial neural network and equilibrium optimization for predicting solar irradiance

Ting Xu, Mohammad Hosein Sabzalian, Ahmad Hammoud, Hamed Tahami, Ali Gholami, Sangkeum Lee

2024Scientific Reports15 citationsDOIOpen Access PDF

Abstract

Abstract As is known, having a reliable analysis of energy sources is an important task toward sustainable development. Solar energy is one of the most advantageous types of renewable energy. Compared to fossil fuels, it is cleaner, freely available, and can be directly exploited for electricity. Therefore, this study is concerned with suggesting novel hybrid models for improving the forecast of Solar Irradiance (I S ). First, a predictive model, namely Feed-Forward Artificial Neural Network (FFANN) forms the non-linear contribution between the I S and dominant meteorological and temporal parameters (including humidity, temperature, pressure, cloud coverage, speed and direction of wind, month, day, and hour). Then, this framework is optimized using several metaheuristic algorithms to create hybrid models for predicting the I S . According to the accuracy assessments, metaheuristic algorithms attained satisfying training for the FFANN by using 80% of the data. Moreover, applying the trained models to the remaining 20% proved their high proficiency in forecasting the I S in unseen environmental circumstances. A comparison among the optimizers revealed that Equilibrium Optimization (EO) could achieve a higher accuracy than Wind-Driven Optimization (WDO), Optics Inspired Optimization (OIO), and Social Spider Algorithm (SOSA). In another phase of this study, Principal Component Analysis (PCA) is applied to identify the most contributive meteorological and temporal factors. The PCA results can be used to optimize the problem dimension, as well as to suggest effective real-world measures for improving solar energy production. Lastly, the EO-based solution is yielded in the form of an explicit formula for a more convenient estimation of the I S .

Topics & Concepts

Computer scienceSolar irradianceArtificial neural networkMetaheuristicRenewable energyPrincipal component analysisMachine learningSolar energyArtificial intelligenceIrradianceMathematical optimizationMathematicsMeteorologyEngineeringElectrical engineeringPhysicsQuantum mechanicsSolar Radiation and PhotovoltaicsEnergy Load and Power ForecastingPhotovoltaic System Optimization Techniques
An innovative machine learning based on feed-forward artificial neural network and equilibrium optimization for predicting solar irradiance | Litcius