A deep learning-based evolutionary model for short-term wind speed forecasting: A case study of the Lillgrund offshore wind farm

•A novel deep learning-based evolutionary model proposed for wind speed forecasting.•A new evolutionary hierarchy-based decomposition method introduced.•A developed evolutionary algorithm proposed in order to hyper-parameter tuning.•Generalised normal distribution algorithm is improved by an adaptiv...

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Vydáno v:Energy conversion and management Ročník 236; s. 114002
Hlavní autoři: Neshat, Mehdi, Nezhad, Meysam Majidi, Abbasnejad, Ehsan, Mirjalili, Seyedali, Tjernberg, Lina Bertling, Astiaso Garcia, Davide, Alexander, Bradley, Wagner, Markus
Médium: Journal Article
Jazyk:angličtina
Vydáno: Oxford Elsevier Ltd 15.05.2021
Elsevier Science Ltd
Témata:
administrative management
Algorithms
Baltic Sea
case studies
Deep learning
Deep learning models
Electric power generation
energy conversion
Energy demand
Evolution
Evolutionary algorithms
Forecasting
Generalised normal distribution optimisation
Hybrid evolutionary deep learning method
Long short-term memory
Machine learning
Mathematical models
Neural networks
Normal distribution
Offshore energy sources
Optimization
power generation
prediction
Short-term forecasting
Turbines
Wind farms
Wind power
Wind power generation
Wind speed
Wind speed prediction
Wind turbines
Sweden
Baltic Sea
Deep learning models
Short-term forecasting
Wind speed prediction
Evolutionary algorithms
Generalised normal distribution optimisation
Hybrid evolutionary deep learning method
ISSN:0196-8904, 1879-2227, 1879-2227
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Shrnutí:•A novel deep learning-based evolutionary model proposed for wind speed forecasting.•A new evolutionary hierarchy-based decomposition method introduced.•A developed evolutionary algorithm proposed in order to hyper-parameter tuning.•Generalised normal distribution algorithm is improved by an adaptive local search.•The proposed hybrid model improves the accuracy of short-term wind speed. Due to expanding global environmental issues and growing energy demand, wind power technologies have been studied extensively. Accurate and robust short-term wind speed forecasting is crucial for large-scale integration of wind power generation into the power grid. However, the seasonal and stochastic characteristics of wind speed make forecasting a challenging task. This study adopts a novel hybrid deep learning-based evolutionary approach in an attempt to improve the accuracy of wind speed prediction. This hybrid model consists of a bidirectional long short-term memory neural network, an effective hierarchical evolutionary decomposition technique and an improved generalised normal distribution optimisation algorithm for hyper-parameter tuning. The proposed hybrid approach was trained and tested on data gathered from an offshore wind turbine installed in a Swedish wind farm located in the Baltic Sea with two forecasting horizons: ten-minutes ahead and one-hour ahead. The experimental results indicated that the new approach is superior to six other applied machine learning models and a further seven hybrid models, as measured by seven performance criteria.
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ISSN:0196-8904
1879-2227
1879-2227
DOI:10.1016/j.enconman.2021.114002