State of science: mental workload in ergonomics
State of science: mental workload in ergonomics
Mental workload (MWL) is one of the most widely used concepts in ergonomics and human factors and represents a topic of increasing importance. Since modern technology in many working environments imposes ever more cognitive demands upon operators while physical demands diminish, understanding how MWL impinges on performance is increasingly critical. Yet, MWL is also one of the most nebulous concepts, with numerous definitions and dimensions associated with it. Moreover, MWL research has had a tendency to focus on complex, often safety-critical systems (e.g. transport, process control). Here we provide a general overview of the current state of affairs regarding the understanding, measurement and application of MWL in the design of complex systems over the last three decades. We conclude by discussing contemporary challenges for applied research, such as the interaction between cognitive workload and physical workload, and the quantification of workload ‘redlines’ which specify when operators are approaching or exceeding their performance tolerances.
applications, attention, measurement, mental workload, resources
1-17
Young, Mark S.
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Brookhuis, Karel A.
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Wickens, Christopher D.
5789e222-a4df-49a1-9650-6f76efb6134b
Hancock, Peter A.
74168dea-32d1-412d-beef-61d0b565833b
2015
Young, Mark S.
3f79589e-2000-4cb0-832a-6eba54f50130
Brookhuis, Karel A.
4deb4598-2766-43d2-86a4-4d9a35deef16
Wickens, Christopher D.
5789e222-a4df-49a1-9650-6f76efb6134b
Hancock, Peter A.
74168dea-32d1-412d-beef-61d0b565833b
Young, Mark S., Brookhuis, Karel A., Wickens, Christopher D. and Hancock, Peter A.
(2015)
State of science: mental workload in ergonomics.
Ergonomics, 58 (1), .
(doi:10.1080/00140139.2014.956151).
Abstract
Mental workload (MWL) is one of the most widely used concepts in ergonomics and human factors and represents a topic of increasing importance. Since modern technology in many working environments imposes ever more cognitive demands upon operators while physical demands diminish, understanding how MWL impinges on performance is increasingly critical. Yet, MWL is also one of the most nebulous concepts, with numerous definitions and dimensions associated with it. Moreover, MWL research has had a tendency to focus on complex, often safety-critical systems (e.g. transport, process control). Here we provide a general overview of the current state of affairs regarding the understanding, measurement and application of MWL in the design of complex systems over the last three decades. We conclude by discussing contemporary challenges for applied research, such as the interaction between cognitive workload and physical workload, and the quantification of workload ‘redlines’ which specify when operators are approaching or exceeding their performance tolerances.
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Accepted/In Press date: 11 August 2014
e-pub ahead of print date: 2 December 2014
Published date: 2015
Keywords:
applications, attention, measurement, mental workload, resources
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Local EPrints ID: 479212
URI: http://eprints.soton.ac.uk/id/eprint/479212
ISSN: 0014-0139
PURE UUID: d0e3f8ef-a7d5-4bc2-829e-c7caac131e2d
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Date deposited: 20 Jul 2023 16:45
Last modified: 17 Mar 2024 04:20
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Contributors
Author:
Mark S. Young
Author:
Karel A. Brookhuis
Author:
Christopher D. Wickens
Author:
Peter A. Hancock
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