Your search keyword '"Wijesuriya N"' showing total 3 results

1. Improving classification rates for use in fatigue countermeasure devices using brain activity.

Author

Tran Y, Craig A, Wijesuriya N, and Nguyen H

Subjects

Fatigue diagnosis, Humans, Reproducibility of Results, Sensitivity and Specificity, Technology Assessment, Biomedical, Algorithms, Automobile Driving, Brain Mapping methods, Electroencephalography methods, Fatigue physiopathology, Fatigue prevention & control, Task Performance and Analysis

Abstract

Fatigue can be defined as a state that involves psychological and physical tiredness with a range of symptoms such as tired eyes, yawning and increased blink rate. It has major implications for work place and road safety as well as a negative symptom of many acute and chronic illnesses. As such there has been considerable research dedicated to systems or algorithms that can be used to detect and monitor the onset of fatigue. This paper examines using electroencephalography (EEG) signals to classify fatigue and alert states as a function of subjective self-report, driving performance and physiological symptoms. The results show that EEG classification network for fatigue improved from 75% to 80% when these factors are applied, especially when the data is grouped by subjective self-report of fatigue with classification accuracy improving to 84.5%.

Published

2010

2. Effects of mental fatigue on 8-13Hz brain activity in people with spinal cord injury.

Author

Wijesuriya N, Tran Y, Thuraisingham RA, Nguyen HT, and Craig A

Subjects

Female, Humans, Male, Middle Aged, Brain physiopathology, Brain Mapping methods, Cognition, Evoked Potentials, Mental Fatigue complications, Mental Fatigue physiopathology, Spinal Cord Injuries complications, Spinal Cord Injuries physiopathology

Abstract

Brain computer interfaces (BCIs) can be implemented into assistive technologies to provide 'hands-free' control for the severely disabled. BCIs utilise voluntary changes in one's brain activity as a control mechanism to control devices in the person's immediate environment. Performance of BCIs could be adversely affected by negative physiological conditions such as fatigue and altered electrophysiology commonly seen in spinal cord injury (SCI). This study examined the effects of mental fatigue from an increase in cognitive demand on the brain activity of those with SCI. Results show a trend of increased alpha (8-13Hz) activity in able-bodied controls after completing a set of cognitive tasks. Conversely, the SCI group showed a decrease in alpha activity due to mental fatigue. Results suggest that the brain activity of SCI persons are altered in its mechanism to adjust to mental fatigue. These altered brain conditions need to be addressed when using BCIs in clinical populations such as SCI. The findings have implications for the improvement of BCI technology.

Published

2008

3. Effects of mental fatigue on 8-13Hz brain activity in people with spinal cord injury

Author

Wijesuriya, N., Yvonne Tran, Thuraisingham, R. A., Nguyen, H. T., and Craig, A.

Subjects

Male, Brain Mapping, Cognition, Brain, Humans, Female, Middle Aged, Mental Fatigue, Evoked Potentials, Spinal Cord Injuries

Abstract

Brain computer interfaces (BCIs) can be implemented into assistive technologies to provide 'hands-free' control for the severely disabled. BCIs utilise voluntary changes in one's brain activity as a control mechanism to control devices in the person's immediate environment. Performance of BCIs could be adversely affected by negative physiological conditions such as fatigue and altered electrophysiology commonly seen in spinal cord injury (SCI). This study examined the effects of mental fatigue from an increase in cognitive demand on the brain activity of those with SCI. Results show a trend of increased alpha (8-13Hz) activity in able-bodied controls after completing a set of cognitive tasks. Conversely, the SCI group showed a decrease in alpha activity due to mental fatigue. Results suggest that the brain activity of SCI persons are altered in its mechanism to adjust to mental fatigue. These altered brain conditions need to be addressed when using BCIs in clinical populations such as SCI. The findings have implications for the improvement of BCI technology.