Applied Sciences (Jan 2023)

Applying Neural Networks with Time-Frequency Features for the Detection of Mental Fatigue

  • Ioannis Zorzos,
  • Ioannis Kakkos,
  • Stavros T. Miloulis,
  • Athanasios Anastasiou,
  • Errikos M. Ventouras,
  • George K. Matsopoulos

DOI
https://doi.org/10.3390/app13031512
Journal volume & issue
Vol. 13, no. 3
p. 1512

Abstract

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The detection of mental fatigue is an important issue in the nascent field of neuroergonomics. Although machine learning approaches and especially deep learning designs have constantly demonstrated their efficiency to automatically detect critical features from raw data, the computational resources for training and predictions are usually very demanding. In this work, we propose a shallow convolutional neural network, with three convolutional layers, for fatigue detection using electroencephalogram (EEG) data that can alleviate the computational burden and provide fast mental fatigue detection. As such, a deep learning model was created utilizing time-frequency domain features, extracted with Morlet wavelet analysis. These features, combined with the higher-level characteristics learnt by the model, resulted in a resilient solution, able to attain very high prediction accuracy (97%), while reducing training time and computing costs. Moreover, by incorporating a subsequent SHAP values analysis on the characteristics that contributed in the model creation, indications of low frequency (theta and alpha band) brain wave characteristics were indicated as prominent mental fatigue detectors.

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