Abstract
The adoption of wind energy has grown significantly in recent years. New, cost-effective technologies have been developed, led by customer awareness of green technologies and a legal framework proposed at the European Union level. The stochastic nature of wind speed is transferred to wind turbine output, making wind energy difficult to predict. The main scope of predicting wind energy production is to be proactive in balancing and reserving energy to meet demand. When the prediction identifies a potential gap between supply and demand, additional energy from other sources must be generated and supplied. Creating a synergy of physical devices through advanced sensing capabilities, software, storage and analytics capabilities, the Industrial Internet of Things is enabling the effective transition to wind energy through automation by removing many of the disadvantages in a way that has recently become accessible. This research focuses on the data analytics, proposing a fast univariate network-based approach for wind energy prediction, using Feed Forward Neural Networks, Recurrent Neural Networks, Long-Short Term Memory, Gated Recurrent Unit, and Convolutional Neural Networks. Moreover, by introducing the theoretical fundamentals, the implementation method and the hyperparameters of the final models, this article becomes unique in the context of wind energy. At the time of this study, no prior research studies have presented a direct comparison between feedforward, recurrent, and convolutional neural networks ? these being the most important in the field of supervised learning.
Highlights
The renewable energy sector has experienced considerable global growth in the last few years
Industrial Internet of Things (IIoT) is represented by smart grids, factories, cars, and machines, while Customer Internet of Things (CIoT) is oriented to the customer and their devices, such as smart home devices, connected cars and wearables
This research aims to provide an overview on the use of predictive analytics based on neural networks and IIoT in the wind energy industry
Summary
The renewable energy sector has experienced considerable global growth in the last few years. The continuously increasing adoption of these renewable technologies has led to a situation that was not previously possible: small installations built by businesses or homeowners These installations were initially built to cover daily basic energy consumption, but they can send energy into the power grid. This reinforces the dispersed character of current power systems and creates a new challenge, in terms of optimal grid management. Even though most renewable energy resources were identified decades ago, they have not been able to replace fossil fuel-based sources because of their intermittent and variable availability The solution for this has been to gradually add them to existing power grids, which has been possible due to the development of smart grids that include features, such as power consumption and output power prediction. The results of the best performing models belonging to each of the five selected typologies are compared, both in terms of generalization capacity and training time
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