Analyzing convolutional neural networks and linear regression models for wind speed forecasting in sustainable energy provision.

Ashraf, Maria; Shaukat, Kiran; Haider Zaidi, Syed Sajjad; Raza, Bushra; Ashraf, Farhana

Wind energy's significance lies in its contribution to electricity production. Accurate wind speed prediction is crucial for precisely forecasting electricity generation, enhancing its overall importance. For the wind speed prediction two methods are developed in this paper that are the Linear Regression Method and Convolutional Neural Networks (CNNs). Linear regression makes a linear relation between input and output which are used to predict continuous outcomes. The second proposed leverage hierarchical feature extraction through convolutional layers, enabling them to excel at tasks like pattern recognition by capturing spatial patterns and hierarchies of information. Hyperparameter tuning is applied on both the models to minimize the errors. Then both the model’s performances are compared under different error matrices including MAE, RMSE, MSE and MAPE. The observations indicate that both the Linear Regression Model and CNN models are capable of forecasting wind speed However, the Linear Regression Model after Hyperparameter tuning performs better in terms of the calculated errors.

CONVOLUTIONAL neural networks; RENEWABLE energy sources; CLEAN energy; PATTERN recognition systems; WIND power

Mehran University Research Journal of Engineering & Technology, 2024, Vol 43, Issue 4, p170

0254-7821

Academic Journal

10.22581/muet1982.3246