Transfer learning to detect neonatal seizure from electroencephalography signals
Künye
Caliskan, A., Rencuzogullari, S. (2021). Transfer learning to detect neonatal seizure from electroencephalography signals (2021) Neural Computing and Applications. https://doi.org/10.1007/s00521-021-05878-yÖzet
This paper offers a solution to the problem of detecting neonatal seizures via a transfer learning technique that judiciously reconstructs pre-trained deep convolution neural networks (p-DCNN), including alexnet, resnet18, googlenet, densenet, and resnet50. Multichannel electroencephalography (EEG) signals are converted to colour images for feeding them as an input for the p-DCNN. A deep neural network (DNN) such as a convolution neural network (CNN) may be directly used instead of transfer learning-based networks. However, a DNN requires too much training data, too much training time, and a computer with high-performance computational capability. The DNN also has several user-supplied hyper-parameters that must be tuned to obtain desirable classification success. To prevent these drawbacks, we propose a transfer learning technique to solve the neonatal seizures detection problem. Results of simulations and the statistical analysis enable us to devise a transfer learning technique employed for seizure detection.