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Deep Learning for Automatic EEG Feature Extraction: An Application in Drivers' Mental Workload Classification

Authors:

Mir Riyanul Islam, Shaibal Barua, Mobyen Uddin Ahmed, Shahina Begum, Gianluca Di Flumeri

Research group:

Artificial Intelligence and Intelligent Systems

Publication Type:

Conference/Workshop Paper

Venue:

The 3rd International Symposium on Human Mental Workload: Models and Applications

Abstract

In the pursuit of reducing traffic accidents, drivers' mental workload (MWL) has been considered as one of the vital aspects. To measure MWL in different driving situations Electroencephalography (EEG) of the drivers has been studied intensely. However, in the literature, mostly, manual analytic methods are applied to extract and select features from the EEG signals to quantify drivers' MWL. Nevertheless, the amount of time and effort required to perform prevailing feature extraction techniques leverage the need for automated feature extraction techniques. This work investigates deep learning (DL) algorithm to extract and select features from the EEG signals during naturalistic driving situations. Here, to compare the DL based and traditional feature extraction techniques, a number of classifiers have been deployed. Results have shown that the highest value of area under the curve of the receiver operating characteristic (AUC-ROC) is 0.94, achieved using the features extracted by CNN-AE and support vector machine. Whereas, using the features extracted by the traditional method, the highest value of AUC-ROC is 0.78 with the multi-layer perceptron. Thus, the outcome of this study shows that the automatic feature extraction techniques based on CNN-AE can outperform the manual techniques in terms of classification accuracy.

Bibtex

@inproceedings{Islam5577, author = {Mir Riyanul Islam and Shaibal Barua and Mobyen Uddin Ahmed and Shahina Begum and Gianluca Di Flumeri}, title = {Deep Learning for Automatic EEG Feature Extraction: An Application in Drivers' Mental Workload Classification}, month = {November}, year = {2019}, booktitle = {The 3rd International Symposium on Human Mental Workload: Models and Applications}, url = {http://www.es.mdu.se/publications/5577-} }