Automating the driver's control tasks
Automating the driver's control tasks
The research reported in this article considers the effects of automating driver's control tasks. Driving can be broken down into 3 general subtasks: navigation, control, and hazard avoidance. Control can be further subdivided into lateral control (position in lane) and longitudinal control (speed and leading headway). Lateral control can be automated by an active steering (AS) system, and longitudinal control can be automated by an adaptive cruise control (ACC) system. Previous research has used driving simulators to consider the effects of driver workload and the ability to reclaim control with these systems. There are, however, some questions about the validity of driving simulators, and this research sought to validate a driving simulator. This was achieved by comparing responses on a secondary task and driving style questionnaire in both a road car and a driving simulator. When validity was established, a comparison of 4 levels of automation was undertaken: manual, ACC, AS, and ACC plus AS. The results showed no reduction in workload associated with ACC over manual driving, but reduction in workload associated with AS and further reduction in workload associated with ACC plus AS. Despite these reductions in workload, there were no adverse affects on normal driving performance. However, the presence of vehicle automation seemed to make drivers less likely to reclaim control in an emergency-braking scenario
221-236
Stanton, Neville A.
351a44ab-09a0-422a-a738-01df1fe0fadd
Young, Mark S.
3f79589e-2000-4cb0-832a-6eba54f50130
Walker, Guy H.
6439272c-58bb-4463-84d3-61357d91b2b6
Turner, Hannah
7682187d-5de4-45ee-bc75-911dc567bb2d
Randle, Steve
05ec520c-9e7a-42b7-b9b0-77966917a777
Stanton, Neville A.
351a44ab-09a0-422a-a738-01df1fe0fadd
Young, Mark S.
3f79589e-2000-4cb0-832a-6eba54f50130
Walker, Guy H.
6439272c-58bb-4463-84d3-61357d91b2b6
Turner, Hannah
7682187d-5de4-45ee-bc75-911dc567bb2d
Randle, Steve
05ec520c-9e7a-42b7-b9b0-77966917a777
Stanton, Neville A., Young, Mark S., Walker, Guy H., Turner, Hannah and Randle, Steve
(2010)
Automating the driver's control tasks.
International Journal of Cognitive Ergonomics, 5 (3), .
(doi:10.1207/S15327566IJCE0503_5).
Abstract
The research reported in this article considers the effects of automating driver's control tasks. Driving can be broken down into 3 general subtasks: navigation, control, and hazard avoidance. Control can be further subdivided into lateral control (position in lane) and longitudinal control (speed and leading headway). Lateral control can be automated by an active steering (AS) system, and longitudinal control can be automated by an adaptive cruise control (ACC) system. Previous research has used driving simulators to consider the effects of driver workload and the ability to reclaim control with these systems. There are, however, some questions about the validity of driving simulators, and this research sought to validate a driving simulator. This was achieved by comparing responses on a secondary task and driving style questionnaire in both a road car and a driving simulator. When validity was established, a comparison of 4 levels of automation was undertaken: manual, ACC, AS, and ACC plus AS. The results showed no reduction in workload associated with ACC over manual driving, but reduction in workload associated with AS and further reduction in workload associated with ACC plus AS. Despite these reductions in workload, there were no adverse affects on normal driving performance. However, the presence of vehicle automation seemed to make drivers less likely to reclaim control in an emergency-braking scenario
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e-pub ahead of print date: 15 June 2010
Identifiers
Local EPrints ID: 76075
URI: http://eprints.soton.ac.uk/id/eprint/76075
ISSN: 1088-6362
PURE UUID: 35f495d7-6f53-4390-bc63-55f54b93b2e6
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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 03:27
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Contributors
Author:
Mark S. Young
Author:
Guy H. Walker
Author:
Hannah Turner
Author:
Steve Randle
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