A. Borovac, T. Runarsson, G. Thorvardsson, S. Gudmundsson
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Calibration of Automatic Seizure Detection Algorithms
An EEG seizure detection algorithm employed in a clinical setting is likely to encounter many EEG segments that are difficult to classify due to the complexity of EEG signals and small data sets frequently used to train seizure detectors. The detectors should therefore be able to notify the clinician when they are uncertain in their predictions and they should also be accurate for confident predictions. This would enable the clinician to focus mainly on the parts of the recording where confidence in predictions is low. Here we analyse the calibration of neonatal and adult seizure detection algorithms based on a convolutional neural network in terms of how well the output seizure/non-seizure probabilities estimate the corresponding empirical frequencies. We found that the detectors turned out to be overconfident, in particular when incorrectly predicting seizure segments as non-seizure segments. The calibration of both detectors, measured in terms of expected calibration error and overconfidence error, was improved noticeably with the use of Monte Carlo dropout. We find that a straightforward application of dropout during training and classification leads to a noticeable improvement in the calibration of EEG seizure detectors based on a convolutional neural network.
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