Abstract
One of the most crucial prerequisites for effective wind power planning and operation in power systems is precise wind speed forecasting. Highly random fluctuations of wind influenced by the conditions of the atmosphere, weather and terrain result in difficulties of forecasting regardless of whether it is short-term or long-term. The current study has developed a method to model wind speed data predictions with dependence on seasonal wind variations over a particular time frame, usually a year, in the form of a Weibull distribution model with an artificial neural network (ANN). As a result, the essential dependencies between the wind speed and seasonal weather variation are exploited. The proposed model utilizes the ANN to predict the wind speed data, which has similar chronological and seasonal characteristics to the actual wind data. This model was applied to wind speed databases from selected sites in Malaysia, namely Mersing, Kudat, and Kuala Terengganu, to validate the proposed model. The results indicate that the proposed hybrid artificial neural network (HANN) model is capable of depicting the fluctuating wind speed during different seasons of the year at different locations.
Highlights
Wind power is the most promising renewable energy and is one of the fastest developing electric generating technologies in the whole world [1]
The results indicate that the proposed hybrid artificial neural network (HANN) model is capable of depicting the fluctuating wind speed during seasons of the year for different locations
root mean square error (RMSE) demonstrates the efficiency of the developed ANN in projecting future individual values, a large positive RMSE indicates a considerable deviation in the predicted value from the real value
Summary
Wind power is the most promising renewable energy and is one of the fastest developing electric generating technologies in the whole world [1]. Have time variation properties and exclude between probability density function model, and project statistical factors cross-dependencies such as mean and variance other meteorological data. This current study has developed a method to model the wind speed data [17]. The essential over dependencies between the wind speed and speed data with dependence on seasonal wind variations a particular time frame, usually a year, seasonal weather variations are exploited Both models were developed from three databases from in the form of the Weibull model with ANN. The results indicate that the proposed hybrid artificial neural network (HANN) model is capable of depicting the fluctuating wind speed during seasons of the year for different locations
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