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Prediction of Stress in Power Transformer Winding Conductors Using Artificial Neural Networks: Hyperparameter Analysis
| Content Provider | MDPI |
|---|---|
| Author | Valencia, Fausto Arcos, Hugo Quilumba, Franklin |
| Copyright Year | 2021 |
| Description | The purpose of this research is the evaluation of artificial neural network models in the prediction of stresses in a 400 MVA power transformer winding conductor caused by the circulation of fault currents. The models were compared considering the training, validation, and test data errors’ behavior. Different combinations of hyperparameters were analyzed based on the variation of architectures, optimizers, and activation functions. The data for the process was created from finite element simulations performed in the FEMM software. The design of the Artificial Neural Network was performed using the Keras framework. As a result, a model with one hidden layer was the best suited architecture for the problem at hand, with the optimizer Adam and the activation function ReLU. The final Artificial Neural Network model predictions were compared with the Finite Element Method results, showing good agreement but with a much shorter solution time. |
| Starting Page | 4242 |
| e-ISSN | 19961073 |
| DOI | 10.3390/en14144242 |
| Journal | Energies |
| Issue Number | 14 |
| Volume Number | 14 |
| Language | English |
| Publisher | MDPI |
| Publisher Date | 2021-07-14 |
| Access Restriction | Open |
| Subject Keyword | Energies Energy and Fuel Technology Artificial Neural Networks Deep Learning Power Transformers Stress Finite Element Method Electromagnetic Forces |
| Content Type | Text |
| Resource Type | Article |
