Speech input applications for driving: Using different levels of fidelity in simulator research
Speech input applications for driving: Using different levels of fidelity in simulator research
Transport simulators provide the potential to isolate specific variables to test for differences in controlled experiments. If simulators operate on a spectrum from low-end, paper based schematics, through to high-end full replica systems, there are fundamental issues associated with how 'fit for purpose' they might be. The physical and functional fidelity of simulators are key factors in their successful implementation as well as issues of face validity and ecological validity (the extent to which research findings generalise from one setting to another). This paper explores different levels of fidelity across a number of experiments that were conducted as part of the UK Government LINK Inland Surface Transport (IST) programme that investigated the potential impact of speech input systems in automotive applications. The findings illustrate that high-end simulation is not always required, especially in exploratory studies where fundamental principles are identified for further examination. However, there comes a point where more realistic driving tasks and contexts are required to develop higher levels of fidelity and enhance the ecological validity of results and the application of knowledge beyond the laboratory and into the real world.
Driving simulation, Fidelity, Human factors, Speech input, Validity
17-34
Stedmon, A. W.
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Richardson, J.
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Bayer, S.H.
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Graham, R.
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Carter, C.
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Young, M.
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Hasseldine, B.
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1 November 2012
Stedmon, A. W.
7d24fa87-2255-4b8f-8120-3d89b207f5cf
Richardson, J.
4e96282f-d5d9-4893-8ab1-8ef604bf0272
Bayer, S.H.
bc2eb2ed-9872-482b-938e-f0bdd5ccd976
Graham, R.
a1891dba-9552-4388-bfa3-98cb61e9ac32
Carter, C.
8eecf5a5-201a-4ef2-b6d5-e23a53ce73fa
Young, M.
3f79589e-2000-4cb0-832a-6eba54f50130
Hasseldine, B.
452fc57f-7265-423e-ab13-f8ecc7cbe431
Stedmon, A. W., Richardson, J., Bayer, S.H., Graham, R., Carter, C., Young, M. and Hasseldine, B.
(2012)
Speech input applications for driving: Using different levels of fidelity in simulator research.
Advances in Transportation Studies, 28, .
Abstract
Transport simulators provide the potential to isolate specific variables to test for differences in controlled experiments. If simulators operate on a spectrum from low-end, paper based schematics, through to high-end full replica systems, there are fundamental issues associated with how 'fit for purpose' they might be. The physical and functional fidelity of simulators are key factors in their successful implementation as well as issues of face validity and ecological validity (the extent to which research findings generalise from one setting to another). This paper explores different levels of fidelity across a number of experiments that were conducted as part of the UK Government LINK Inland Surface Transport (IST) programme that investigated the potential impact of speech input systems in automotive applications. The findings illustrate that high-end simulation is not always required, especially in exploratory studies where fundamental principles are identified for further examination. However, there comes a point where more realistic driving tasks and contexts are required to develop higher levels of fidelity and enhance the ecological validity of results and the application of knowledge beyond the laboratory and into the real world.
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Published date: 1 November 2012
Keywords:
Driving simulation, Fidelity, Human factors, Speech input, Validity
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Local EPrints ID: 480350
URI: http://eprints.soton.ac.uk/id/eprint/480350
ISSN: 1824-5463
PURE UUID: 64be4215-4e4b-413d-b096-d45ac13d0289
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Date deposited: 01 Aug 2023 17:48
Last modified: 17 Mar 2024 04:20
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Contributors
Author:
A. W. Stedmon
Author:
J. Richardson
Author:
S.H. Bayer
Author:
R. Graham
Author:
C. Carter
Author:
M. Young
Author:
B. Hasseldine
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