Abstract
BackgroundEpilepsy is one of the diseases of the nervous system, which has a large population in the world. Traditional diagnosis methods mostly depended on the professional neurologists’ reading of the electroencephalogram (EEG), which was time-consuming, inefficient, and subjective. In recent years, automatic epilepsy diagnosis of EEG by deep learning had attracted more and more attention. But the potential of deep neural networks in seizure detection had not been fully developed.MethodsIn this article, we used a one-dimensional convolutional neural network (1-D CNN) to replace the residual network architecture’s traditional convolutional neural network (CNN). Moreover, we combined the Independent recurrent neural network (indRNN) and CNN to form a new residual network architecture-independent convolutional recurrent neural network (RCNN). Our model can achieve an automatic diagnosis of epilepsy EEG. Firstly, the important features of EEG were learned by using the residual network architecture of 1-D CNN. Then the relationship between the sequences were learned by using the recurrent neural network. Finally, the model outputted the classification results.ResultsOn the small sample data sets of Bonn University, our method was superior to the baseline methods and achieved 100% classification accuracy, 100% classification specificity. For the noisy real-world data, our method also exhibited powerful performance.ConclusionThe model we proposed can quickly and accurately identify the different periods of EEG in an ideal condition and the real-world condition. The model can provide automatic detection capabilities for clinical epilepsy EEG detection. We hoped to provide a positive significance for the prediction of epileptic seizures EEG.
Highlights
Epilepsy is one of the diseases of the nervous system, which has a large population in the world
In the binary classification task, even 100% of results are obtained in accuracy and specificity. These results indicated that the new architecture we proposed can effectively realize the automatic detection of epilepsy EEG
We propose the recurrent neural network (RCNN) model to achieve the automatic diagnosis task of epilepsy EEG, and achieve the automatic labeling of different stages of epilepsy EEG.Our research describes a new method of automatic detection of epilepsy that can directly process the original EEG
Summary
Epilepsy is one of the diseases of the nervous system, which has a large population in the world. Automatic epilepsy diagnosis of EEG by deep learning had attracted more and more attention. Epilepsy is a chronic brain dysfunction syndrome. The causes of epilepsy were various, and the course of the disease would repeat for a long time. The development of EEG provided a non-invasive, low-cost, and effective technology that can be used in clinical trials to detect cerebral cortex brain activity and related diseases [4,5,6]. The brain activities of patients with epilepsy usually included the interictal and the ictal period [7]. EEG is an important basis for the clinical diagnosis of epilepsy
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