Difference thresholds for the perception of whole-body vertical vibration: dependence on the frequency and magnitude of vibration
Difference thresholds for the perception of whole-body vertical vibration: dependence on the frequency and magnitude of vibration
When seeking to reduce vibration in transport it is useful to know how much reduction is needed for the improvement to be noticeable. This experimental study investigated whether relative difference thresholds for the perception of whole-body vertical vibration by seated persons depend on the frequency or magnitude of vibration. Relative difference thresholds for sinusoidal seat vibration were determined for 12 males at three vibration magnitudes and eight frequencies (2.5, 5, 10, 20, 40, 80, 160, 315 Hz) using the three-down-one-up method in conjunction with a two-interval-forced-choice procedure. The median relative difference thresholds were in the range 9.5% to 20.3%. There appeared to be a frequency-dependence at the lowest vibration magnitude, such that higher frequencies had higher difference thresholds. The relative difference thresholds depended on the vibration magnitude only at 2.5 and 315 Hz. The influence of both vibration frequency and vibration magnitude on the measured difference thresholds suggests that vision (at 2.5 Hz) and hearing (at 315 Hz) contributed to the perception of changes in vibration magnitude
difference thresholds, whole-body vibration
1305-1310
Forta, Nazim Gizem
02d6f986-f10d-4c0a-9de5-c113288749cd
Morioka, Miyuki
8eb26aca-8773-4e45-8737-61c2438d30d9
Griffin, Michael J.
24112494-9774-40cb-91b7-5b4afe3c41b8
October 2009
Forta, Nazim Gizem
02d6f986-f10d-4c0a-9de5-c113288749cd
Morioka, Miyuki
8eb26aca-8773-4e45-8737-61c2438d30d9
Griffin, Michael J.
24112494-9774-40cb-91b7-5b4afe3c41b8
Forta, Nazim Gizem, Morioka, Miyuki and Griffin, Michael J.
(2009)
Difference thresholds for the perception of whole-body vertical vibration: dependence on the frequency and magnitude of vibration.
Ergonomics, 52 (10), .
(doi:10.1080/00140130903023709).
Abstract
When seeking to reduce vibration in transport it is useful to know how much reduction is needed for the improvement to be noticeable. This experimental study investigated whether relative difference thresholds for the perception of whole-body vertical vibration by seated persons depend on the frequency or magnitude of vibration. Relative difference thresholds for sinusoidal seat vibration were determined for 12 males at three vibration magnitudes and eight frequencies (2.5, 5, 10, 20, 40, 80, 160, 315 Hz) using the three-down-one-up method in conjunction with a two-interval-forced-choice procedure. The median relative difference thresholds were in the range 9.5% to 20.3%. There appeared to be a frequency-dependence at the lowest vibration magnitude, such that higher frequencies had higher difference thresholds. The relative difference thresholds depended on the vibration magnitude only at 2.5 and 315 Hz. The influence of both vibration frequency and vibration magnitude on the measured difference thresholds suggests that vision (at 2.5 Hz) and hearing (at 315 Hz) contributed to the perception of changes in vibration magnitude
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Published date: October 2009
Keywords:
difference thresholds, whole-body vibration
Organisations:
Human Sciences Group
Identifiers
Local EPrints ID: 79066
URI: http://eprints.soton.ac.uk/id/eprint/79066
ISSN: 1366-5847
PURE UUID: eb75ffbb-97f8-41ce-93e7-eeab1c1ebdf6
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Date deposited: 12 Mar 2010
Last modified: 14 Mar 2024 00:27
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Contributors
Author:
Nazim Gizem Forta
Author:
Miyuki Morioka
Author:
Michael J. Griffin
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