Abstract
ObjectivesThe objective of this study was to investigate common functional near-infrared spectroscopy (fNIRS) features of mental fatigue induced by different tasks. In addition to distinguishing fatigue from non-fatigue state, the early signs of fatigue were also studied so as to give an early warning of fatigue.MethodsfNIRS data from 36 participants were used to investigate the common character of functional connectivity network corresponding to mental fatigue, which was induced by psychomotor vigilance test (PVT), cognitive work, or simulated driving. To analyze the network reorganizations quantitatively, clustering coefficient, characteristic path length, and small worldness were calculated in five sub-bands (0.6–2.0, 0.145–0.600, 0.052–0.145, 0.021–0.052, and 0.005–0.021 Hz). Moreover, we applied a random forest method to classify three fatigue states.ResultsIn a moderate fatigue state: the functional connectivity strength between brain regions increased overall in 0.021–0.052 Hz, and an asymmetrical pattern of connectivity (right hemisphere > left hemisphere) was presented. In 0.052–0.145 Hz, the connectivity strength decreased overall, the clustering coefficient decreased, and the characteristic path length increased significantly. In severe fatigue state: in 0.021–0.052 Hz, the brain network began to deviate from a small-world pattern. The classification accuracy of fatigue and non-fatigue was 85.4%. The classification accuracy of moderate fatigue and severe fatigue was 82.8%.ConclusionThe preliminary research demonstrates the feasibility of detecting mental fatigue induced by different tasks, by applying the functional network features of cerebral hemoglobin signal. This universal and robust method has the potential to detect early signs of mental fatigue and prevent relative human error in various working environments.
Highlights
Long-term cognitive tasks and attention tasks may lead to mental fatigue, which is usually manifested by decreased attention, slower reaction times, and increased aversion to tasks (Boksem et al, 2006)
The main purpose of this paper is to explore the common characteristics of the functional brain network corresponding to different mental fatigue states under complex fatigue-induced conditions
In frequency band II associated with neurogenic activity, the functional connectivity strength increased overall, and there was no significant difference in the connectivity strength between the left and right hemispheres
Summary
Long-term cognitive tasks and attention tasks may lead to mental fatigue, which is usually manifested by decreased attention, slower reaction times, and increased aversion to tasks (Boksem et al, 2006). Mental fatigue and its related decline in brain physiological function represent an important social problem, leading to reduced productivity (Tanabe and Nishihara, 2004), impaired motor and cognitive task execution (Sharma et al, 2019), reduced risk alertness (Saxby et al, 2013), and an increased incidence of accidents (Nilsson et al, 1997). To cope with these adverse but preventable consequences caused by mental fatigue, a reasonable and accurate assessment of mental fatigue degree is required. This paper does not want to clearly distinguish the differences between mental fatigue and sleepiness, but to explore the universal character of mental fatigue in the realistic complex environment and improve the reliability of mental fatigue indication methods
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