Solar radiation forecasting using gradient boosting based ensemble learning model for various climatic zones

India is seeing a massive boost in solar power installations in the recent years. It is expected that solar energy utilization will be increasing exponentially in near future. Solar radiation forecasting is an essential tool to obtain the optimal performance out of the solar systems. An ensemble mod...

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Bibliographic Details
Published in:Sustainable Energy, Grids and Networks Grids and Networks, 2024-06, Vol.38, p.101312, Article 101312
Main Authors: Krishnan, Naveen, Ravi Kumar, K., R., Sripathi Anirudh
Format: Article
Language:English
Subjects:
Decision tree
Ensemble model
Gradient boosting
Machine learning
Neural network
Solar radiation forecasting
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Summary:India is seeing a massive boost in solar power installations in the recent years. It is expected that solar energy utilization will be increasing exponentially in near future. Solar radiation forecasting is an essential tool to obtain the optimal performance out of the solar systems. An ensemble model using gradient boosting has been developed for hourly global horizontal irradiance forecasting is proposed for the various climatic zones of India. The gradient boost-based model is benchmarked with Auto Regressive Integrated Moving Average (ARIMA),2-layer feed forward neural network, and Long Short-Term Memory (LSTM). Gradient boosting obtained with marginally better performance metrics, mean absolute error (20.97 W/m2) and mean square error (1357 W2/m4) as compared to that of the neural network (21.66 W/m2, 1479.53 W2/m4) and performed much better than ARIMA and LSTM in terms of mean absolute error (251.66 W/m2) & mean square error (82,290 W2/m4) and mean absolute error (67.60 W/m2) & mean square error (8123 W2/m4). The diverse climatic zones in India and feature importance analysis have been considered during the model development and testing phase. The proposed model is also intended to have practical implications in obtaining solar irradiance data in locations with minimal availability of solar radiation data and solar power systems due to the model ability to provide good performance metrics in a smaller timeframe making it an ideal candidate for real-time solar power predicting model. •Gradient boosting based ensemble model for hour ahead forecasting.•Eulerian distance method is used to identify factors affecting model performance.•Significance of input parameters were estimated by feature extraction technique..
ISSN:2352-4677
2352-4677
DOI:10.1016/j.segan.2024.101312