The effects of a moving environment on postural control and task performance during manual materials handling, visual tracking and arithmetic tasks

The purpose of this study was to evaluate the performance of cognitive tasks and manual materials handling in a moving environment. Specifically, we were interested in how task performance, postural control and lower limb muscle activation changed when tasks were performed in motion compared to no m...

Full description

Saved in:
Bibliographic Details
Published in:International journal of industrial ergonomics 2018-07, Vol.66, p.221-229
Main Authors: Duncan, Carolyn A., Hickey, Craig J., Byrne, Jeannette M.
Format: Article
Language:English
Subjects:
Activation
Arithmetic
Balance
Cognitive ability
Cognitive style
Cognitive tasks
Environmental effects
Environmental impact
Health risks
Hoisting
Human factors
Interval arithmetic
Manual materials handling
Maritime environments
Maritime industry
Materials handling
Mathematical analysis
Mathematics
Mental task performance
Muscle contraction
Muscles
Optical tracking
Posture
Visual tasks
Visualization
Workers
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The purpose of this study was to evaluate the performance of cognitive tasks and manual materials handling in a moving environment. Specifically, we were interested in how task performance, postural control and lower limb muscle activation changed when tasks were performed in motion compared to no motion conditions. The motion trials were performed on a MOOG 2000E that created a 5-degree of freedom simulated environment. The tasks examined were a lifting task, a mental arithmetic task and a visual tracking task. Results of this experiment indicated that two outcome measures of a visual tracking task (time to task completion and performance errors) were negatively affected by motion, while arithmetic task performance was unaffected. Additionally, postural control was not affected by the presence of motion in the two cognitive tasks. Lifting was the only task where postural control appeared to be negatively affected as participants exhibited significant increases in lower limb muscle activation and non-significant increases in number of steps taken. The significant increase in time to completion and errors suggest that workers performing visual tracking type tasks in an offshore environment may be more prone to committing human factors errors. Furthermore, the results suggest that the risk of falls and injury due to loss of balance may be highest in workers regularly performing lifting tasks as this was the only instance where task performance in a moving environment negatively impacted postural control. These findings were attributed to greater demands placed on the postural control system when lifting during the motion condition. This study provides ergonomists with a resource they can use to better appreciate the risks associated with performance of job related tasks in a moving environment. •This study compared performance of cognitive and physical work tasks in moving environments.•Only the lifting task impacted postural control.•Performance of the visual tracking task was impacted by motion.•Motion did not have any impact on the arithmetic task.
ISSN:0169-8141
1872-8219
DOI:10.1016/j.ergon.2018.03.007