Towards the development of a countermeasure device to detect fatigue in drivers from electroencephalography signals
Keywords: Fleet Safety
ARSRPE
Submission Date: 2001
Abstract
Fatigue affects the drivers? ability to continue driving safely. Therefore, on-line monitoring of physiological signals while driving provides the possibility of detecting fatigue in real time. The EEG signal has been found to be the most predictive and reliable indicator. However, little evidence exists on implementing EEG into a fatigue countermeasure device.
The aims were to utilise EEG changes during fatigue for development of fatigue countermeasure software and to test the ability of such software in detecting fatigue. EEG was obtained in twenty truck drivers during a driver simulator task till subjects fatigued. Changes found in delta, theta, alpha and beta activity were used to develop algorithms for the software. The software was designed to detect an alert state and early, medium and extreme levels of fatigue. The software was tested in off-line mode in a separate group of ten truck drivers.
The software was capable of detecting fatigue accurately in all ten subjects. The percentage of time the subjects were detected to be in a fatigue state was significantly different to the alert phase (p