Abstract
As the world is aware, the trend of generating energy sources has been changing from conventional fossil fuels to sustainable energy. In order to reduce greenhouse gas emissions, the ratio of renewable energy sources should be increased, and solar and wind power, typically, are driving this energy change. However, renewable energy sources highly depend on weather conditions and have intermittent generation characteristics, thus embedding uncertainty and variability. As a result, it can cause variability and uncertainty in the power system, and accurate prediction of renewable energy output is essential to address this. To solve this issue, much research has studied prediction models, and machine learning is one of the typical methods. In this paper, we used a bagging model to predict solar energy output. Bagging generally uses a decision tree as a base learner. However, to improve forecasting accuracy, we proposed a bagging model using an ensemble model as a base learner and adding past output data as new features. We set base learners as ensemble models, such as random forest, XGBoost, and LightGBMs. Also, we used past output data as new features. Results showed that the ensemble learner-based bagging model using past data features performed more accurately than the bagging model using a single model learner with default features.
Highlights
The 196 countries that signed the Paris Agreement in 2015 agreed to make efforts to reduce their artificial greenhouse gas emissions to zero in the second half of the 21st century
A decision tree is a representative base learner used in most ensemble models of machine learning
The mean absolute error (MAE) and root mean square error (RMSE) are shown in Equations (8)
Summary
The 196 countries that signed the Paris Agreement in 2015 agreed to make efforts to reduce their artificial greenhouse gas emissions to zero in the second half of the 21st century. This agreement highlighted the need to generate energy through renewable resources and was motivated by research on how to manage and integrate variable power generation systems, such as solar and wind power, into the grid [1]. According to International Energy Agency(IEA)’s Renewable 2018, solar power plants accounted for more than two-thirds of the world’s net electricity capacity growth in. The world’s total renewable-based power capacity is expected to grow 50 percent between 2019 and 2024, with solar power accounting for 60 percent of the rise [3,4]
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