Enhancing Wind Energy Forecasting Efficiency Through Dense and Dropout Networks (DDN): Leveraging Grid Search Optimization
Document Type
Conference Proceeding
Source of Publication
Lecture Notes in Networks and Systems
Publication Date
11-15-2025
Abstract
The wind power industry has experienced remarkable growth due to technological advancements and innovative business models. In 2020, the global installed wind power capacity reached 93 GW, marking a significant 52.96% increase compared to the previous year. This growth highlights the industry’s pivotal role in addressing energy needs and sustainability challenges. Timely wind energy forecasting is critical due to the nonlinear relationship between wind speed and power generation—however, the complexity and uncertainty of natural wind factors present challenges, necessitating effective forecasting methods. A deep learning-based approach named Dense and Dropout Networks (DDN) is introduced to address these challenges, employing Grid Search Optimization techniques. The model consists of eight dense layers for intricate data pattern recognition and a “ReLU” activation function. A dropout layer with a rate of 0.4 is integrated to enhance generalization and mitigate overfitting. The optimization process combines grid search with cross-validation to determine optimal hyperparameters. The actual “Texas Turbine” dataset evaluates the proposed DDN model based on Mean Squared Error (MSE) and Mean Absolute Error (MAE), revealing a significant improvement in accuracy with an enhanced MSE of 94.013% and an improved MAE of 76.947%. In conclusion, the optimized DDN model is a valuable and reliable tool for forecasting wind turbine energy production. Its impressive accuracy and potential for real-world implementation make it a noteworthy contribution to advancing renewable energy technologies and sustainable practices.
DOI Link
ISBN
[9783032071088]
ISSN
Publisher
Springer Nature Switzerland
Volume
1660 LNNS
First Page
599
Last Page
614
Disciplines
Computer Sciences
Keywords
Deep learning, Energy forecasting, Grid search, Optimization, Renewable energy technologies, Wind energy
Scopus ID
Recommended Citation
Alazemi, Talal; Darwish, Mohamed; Alaraj, Maher; and Alsisi, Elaf, "Enhancing Wind Energy Forecasting Efficiency Through Dense and Dropout Networks (DDN): Leveraging Grid Search Optimization" (2025). All Works. 7733.
https://zuscholars.zu.ac.ae/works/7733
Indexed in Scopus
yes
Open Access
no