Detecting fatigue in car drivers and aircraft pilots by using eye-motion metrics

Abstract

Fatigue is widely recognised for risking the safety of aviation and ground transportation. To enhance transport safety, fatigue detection systems based on psychophysiological measures have been under development for many years. However, a reliable and robust fatigue detection system is still missing. This thesis starts with a literature review of fatigue concepts in the transportation field and the current psychophysiological measures to fatigue, and narrows down the focus to improving fatigue detection systems using eye-motion measures. A research gap was identified between current fatigue systems only focusing on part of sleepy symptoms and a comprehensive fatigue detection system including mental fatigue needed. To address this gap, four studies were conducted to reshape the understanding of fatigue in transportation and explore effective eye-motion metrics for indicating fatigue considering different causal factors. Studies 1 and 2 investigated the influence of two types of task-related fatigue on eye movement. Twenty participants completed a vigilance task before and after a 1-h simulator-based drive with a secondary task. Forty participants, divided equally into two groups, finished the same task before and after a 1-h and 1.5-h monotonous driving task. The results demonstrated that two types of task-related fatigue caused by cognitive overload and prolonged underload induced different physiological responses to eye-motion metrics. The results also proved that the increased mental fatigue decreased driver’s vigilance. Studies 3 and 4 simulated two hazardous fatigue scenarios for pilots. Study 3 explored the relationship between eye-motion metrics and pilot fatigue in an underload flight condition with sleep deprivation (low workload and sleep pressure). Study 4 explored the effective eye-motion metrics to estimate pilot’s cognitive fatigue imposed by time on task and high workload. The results suggested different eye-motion metrics to indicate sleepiness and mental fatigue. In addition, based on the sleepiness and mental fatigue indicators in Studies 3 and 4, several classifiers were built and evaluated to accurately detect sleepiness and mental fatigue. These findings show that considering casual factors such as sleep pressure, time on task and workload when using eye-motion metrics to detect fatigue can improve the accuracy and face validity of the current fatigue detection systems