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Wearable Epileptic Seizure Prediction System Based on Machine Learning Techniques Using ECG, PPG and EEG Signals.

David Zambrana-VinarozJosé María Vicente-SamperJuliana Manrique-CordobaJose Maria Sabater-Navarro
Published in: Sensors (Basel, Switzerland) (2022)
Epileptic seizures have a great impact on the quality of life of people who suffer from them and further limit their independence. For this reason, a device that would be able to monitor patients' health status and warn them for a possible epileptic seizure would improve their quality of life. With this aim, this article proposes the first seizure predictive model based on Ear EEG, ECG and PPG signals obtained by means of a device that can be used in a static and outpatient setting. This device has been tested with epileptic people in a clinical environment. By processing these data and using supervised machine learning techniques, different predictive models capable of classifying the state of the epileptic person into normal, pre-seizure and seizure have been developed. Subsequently, a reduced model based on Boosted Trees has been validated, obtaining a prediction accuracy of 91.5% and a sensitivity of 85.4%. Thus, based on the accuracy of the predictive model obtained, it can potentially serve as a support tool to determine the status epilepticus and prevent a seizure, thereby improving the quality of life of these people.
Keyphrases
  • machine learning
  • temporal lobe epilepsy
  • big data
  • artificial intelligence
  • newly diagnosed
  • functional connectivity
  • blood pressure
  • chronic kidney disease
  • deep learning
  • prognostic factors