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A Novel Use of Discrete Wavelet Transform Features in the Prediction of Epileptic Seizures from EEG Data

This paper demonstrates the predictive superiority of discrete wavelet transform (DWT) over previously used methods of feature extraction in the diagnosis of epileptic seizures from EEG data. Classification accuracy, specificity, and sensitivity are used as evaluation metrics. We specifically show the immense potential of 2 combinations (DWT-db4 combined with SVM and DWT-db2 combined with RF) as compared to others when it comes to diagnosing epileptic seizures either in the balanced or the imbalanced dataset. The results also highlight that MFCC performs less than all the DWT used in this study and that, The mean-differences are statistically significant respectively in the imbalanced and balanced dataset. Finally, either in the balanced or the imbalanced dataset, the feature extraction techniques, the models, and the interaction between them have a statistically significant effect on the classification accuracy.

preprint2021arXivOpen access
Cyrille FeudjioVictoire Djimna NoyumYounous Perieukeu MofendjouRockefellerErnest Fokoué
eess.SPComputational Engineering, Finance, and Sciencestat.OTMachine Learning
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Open access5 authors4 topics
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Cyrille FeudjioVictoire Djimna NoyumYounous Perieukeu MofendjouRockefellerErnest Fokoué

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