Train drivers mental workload and alertness under simulated conditions based on electroencephalogram signals / Nurul Izzah Abd Rahman
Train driving may seem simple. Drivers are able to handle train journeys after going through trainings. However, accidents do happen and most of these accidents can be related to human failure. Adverse driving conditions are factors that lead to increased risk of train drivers‟ failure in perform...
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| Format: | Thesis |
| Published: |
2013
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| Subjects: | |
| Online Access: | http://studentsrepo.um.edu.my/8650/4/TRAIN_DRIVERS_MENTAL_WORKLOAD_AND_ALERTNESS_UNDER_SIMULATED_.pdf http://studentsrepo.um.edu.my/8650/ |
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| Summary: | Train driving may seem simple. Drivers are able to handle train journeys after
going through trainings. However, accidents do happen and most of these accidents can
be related to human failure. Adverse driving conditions are factors that lead to
increased risk of train drivers‟ failure in performing their task. Thus, there is a need for
assessing human factors due to the exposure of different driving conditions.
There are two main objectives in this study. The first is to investigate
empirically Malaysian train drivers‟ mental workload and alertness in various
conditions. The second objective is to determine the significant pattern of various
mental workloads and alertness of train drivers with reference to different conditions.
The data were collected through experimental study. Fifteen professional train
drivers were involved in the study. The experiments were performed in three types of
conditions; during daytime, rainy and rainy night. Participants were required to use the
train driving simulator set for a total duration of sixty minutes. Electroencephalogram
(EEG) signal were collected from six significant placements (FZ, PZ, O1, O2, P3 and P4)
to determine the mental workload and alertness required for each task. The mean alpha
power was monitored as this signal reflects the variation in mental workload level.
Night and rainy setting has shown significant difference pattern from other conditions.
The result highlighted that 37% of difference between normal daytime driving and
rainy night driving even at the early driving duration. It can be understood that during
this driving situation, the mental workload tends to be high and sleepiness occurs which
is a sign of low vigilance. This finding also shows that the train drivers tend to have a
decrease in mental workload after six minutes of driving during rainy night shift. On
the other hand, beta amplitude presented that during rainy and night drive, increment
was recorded which may be occurred because of difficulty to see through in the dark.
In the conclusion, the study has shown a significant pattern for night raining
condition. It is also highlighted that during night and rainy, the mental workload
increases 37% from sunny condition. Meanwhile, it was found out that after six minutes
of rainy night driving, a lower mental workload appeared among the train drivers which
showing detachment on the works. In addition, it was found out that there is difficulty
in term of vision among the train drivers during rainy night drive. It is significant to be
aware on this condition since it is very dangerous. This result highlighted that an
ergonomic work schedule and work design is needed to tackle the problem to avoid
human error.
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