Ensemble wind speed forecasting with multi-objective Archimedes optimization algorithm and sub-model selection

•A novel ensemble system is proposed to perform point and interval forecasting.•Sub-model selection is used to select optimal sub-model for decomposed sub-series.•Multi-objective Archimedes optimization algorithm is proposed to optimize weights.•Optimized reduction coefficient is proposed to adjust...

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Vydáno v:Applied energy Ročník 301; s. 117449
Hlavní autoři: Zhang, Lifang, Wang, Jianzhou, Niu, Xinsong, Liu, Zhenkun
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.11.2021
Témata:
algorithms
Artificial intelligence
China
data collection
energy
Ensemble wind speed forecasting
Multi-objective Archimedes optimization algorithm
prediction
Sub-model selection
wind power
wind speed
China
Multi-objective Archimedes optimization algorithm
Sub-model selection
Artificial intelligence
Ensemble wind speed forecasting
ISSN:0306-2619, 1872-9118
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Shrnutí:•A novel ensemble system is proposed to perform point and interval forecasting.•Sub-model selection is used to select optimal sub-model for decomposed sub-series.•Multi-objective Archimedes optimization algorithm is proposed to optimize weights.•Optimized reduction coefficient is proposed to adjust interval forecasting width.•Theoretical proof and experiments verify the effectiveness of the ensemble system. Wind energy is becoming increasingly competitive and promising for renewable energy profiles. Accurate and reliable wind speed prediction is crucial for the effective exploitation of wind energy. However, previous studies have generally ignored the importance of capturing both linear and non-linear wind speed characteristics and selecting forecasting sub-models objectively, resulting in poor forecasting performance. To bridge these gaps, a novel ensemble forecasting system is proposed by integrating the decomposition strategy, sub-model selection, and ensemble point and interval prediction based on the newly proposed multi-objective Archimedes optimization algorithm, which has been demonstrated to be effective at the theoretical and empirical levels for providing reliable wind speed forecasting results. Based on hourly-resolution wind speed data from three datasets of Shandong Peninsula, China, three experiments and discussions are conducted. Simulation results demonstrate that the proposed system is capable of obtaining a high degree of precision and reliability for both point and interval forecasting relative to other comparative models. Thus, it can provide credible references for power system dispatching and management.
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ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2021.117449