Wind forecasting and wind power generation: Looking for the best model based on artificial intelligence

Wind forecasting is extremely important to assist in planning and programming studies for the operation of wind power generation. Several studies have shown that the Brazilian wind potential can contribute significantly to the electricity supply, especially in the Northeast, where winds present an i...

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Main Authors: de Aquino, Ronaldo R. B., Gouveia, Hugo T. V., Lira, Milde M. S., Ferreira, Aida A., Neto, Otoni Nobrega, Carvalho, Manoel A.
Format: Conference Proceeding
Language:English
Subjects:
Artificial Intelligence
Forecasting
Fuzzy Logic
Mathematical model
Neural Networks
Predictive models
Time Series Analysis
Training
Wavelet Transforms
Wind Energy
Wind forecasting
Wind power generation
Wind speed
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creator de Aquino, Ronaldo R. B.
Gouveia, Hugo T. V.
Lira, Milde M. S.
Ferreira, Aida A.
Neto, Otoni Nobrega
Carvalho, Manoel A.
description Wind forecasting is extremely important to assist in planning and programming studies for the operation of wind power generation. Several studies have shown that the Brazilian wind potential can contribute significantly to the electricity supply, especially in the Northeast, where winds present an important feature of being complementary in relation to the flows of the San Francisco River. However, using wind power to generate electricity has some drawbacks, such as uncertainties in generation and some difficulty in planning and operation of the power system. This work proposes and develops models to forecast hourly average wind speeds and wind power generation based on Artificial Neural Networks, Fuzzy Logic and Wavelets. The models were adjusted for forecasting with variable steps up to twenty-four hours ahead. The gain of some of the developed models in relation to the reference models was of approximately 80% for forecasts in a period of one hour ahead. The results showed that a wavelet analysis combined with artificial intelligence tools provides more reliable forecasts than those obtained with the reference models, especially for forecasts in a period of 1 to 6 hours ahead.
doi_str_mv 10.1109/IJCNN.2012.6252526
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Artificial Intelligence
Forecasting
Fuzzy Logic
Mathematical model
Neural Networks
Predictive models
Time Series Analysis
Training
Wavelet Transforms
Wind Energy
Wind forecasting
Wind power generation
Wind speed
title Wind forecasting and wind power generation: Looking for the best model based on artificial intelligence
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