Hybrid Photovoltaic Output Forecasting Model with Temporal Convolutional Network Using Maximal Information Coefficient and White Shark Optimizer

Accurate forecasting of PV power not only enhances the utilization of solar energy but also assists power system operators in planning and executing efficient power management. The Temporal Convolutional Network (TCN) is utilized for feature extraction from the data, while the White Shark Optimizati...

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Bibliographic Details
Published in:Sustainability 2024-07, Vol.16 (14), p.6102
Main Authors: Lin, Xilong, Niu, Yisen, Yan, Zixuan, Zou, Lianglin, Tang, Ping, Song, Jifeng
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Alternative energy sources
Analysis
Deep learning
Efficiency
Electric power systems
Energy consumption
Heuristic
Industry forecasts
Machine learning
Neural networks
Power plants
Radiation
Solar energy
Solar energy industry
Statistical methods
Support vector machines
Time series
Weather forecasting
Wind power
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Summary:Accurate forecasting of PV power not only enhances the utilization of solar energy but also assists power system operators in planning and executing efficient power management. The Temporal Convolutional Network (TCN) is utilized for feature extraction from the data, while the White Shark Optimization (WSO) algorithm optimizes the TCN parameters. Given the extensive dataset and the complex variables influencing PV output in this study, the maximal information coefficient (MIC) method is employed. Initially, mutual information values are computed for the base data, and less significant variables are eliminated. Subsequently, the refined data are fed into the TCN, which is fine-tuned using WSO. Finally, the model outputs the prediction results. For testing, one year of data from a dual-axis tracking PV system is used, and the robustness of the model is further confirmed using data from single-axis and stationary PV systems. The findings demonstrate that the MIC-WSO-TCN model outperforms several benchmark models in terms of accuracy and reliability for predicting PV power.
ISSN:2071-1050
2071-1050
DOI:10.3390/su16146102