Non-linear characteristics in the dynamic responses of seated subjects exposed to vertical whole-body vibration.
Non-linear characteristics in the dynamic responses of seated subjects exposed to vertical whole-body vibration.
The effect of the magnitude of vertical vibration on the dynamic response of the seated human body has been investigated. Eight male subjects were exposed to random vibration in the 0.5 to 20 Hz frequency range at five magnitudes: 0.125, 0.25, 0.5, 1.0 and 2.0 ms(-2) r.m.s. The dynamic responses of the body were measured at eight locations: at the first, fifth, and tenth thoracic vertebrae (T1, T5, T10), at the first, third, and fifth lumbar vertebrae (L1, L3, L5) and at the pelvis (the posterior-superior iliac spine). At each location, the motions on the body surface were measured in the three orthogonal axes within the sagittal plane (i.e., the vertical, fore-and-aft, and pitch axes).
The force at the seat surface was also measured. Frequency response functions (i.e., transmissibilities and apparent mass) were used to represent the responses of the body. Non-linear characteristics were observed in the apparent mass and in the transmissibilities to most measurement locations. Resonance frequencies in the frequency response functions decreased with increases in the vibration magnitude (e.g. for the vertical transmissibility to L3, a reduction from 6.25 to 4.75 Hz when the vibration magnitude increased from 0.125 to 2.0 ms(-2) r.m.s.). The transmission of vibration within the spine also showed some evidence of a non-linear characteristic. It can be concluded from this study that the dynamic responses of seated subjects are clearly non-linear with respect to vibration magnitude, whereas previous studies have reported inconsistent conclusions. More understanding of the dependence on vibration magnitude of both the dynamic responses of the soft tissues of the body and the muscle activity (voluntary and involuntary) is required to identify the causes of the non-linear characteristics observed in this study.
dynamic response, vibrations, biomechanics, frequency response, bone, orthopaedics
527-532
Matsumoto, Yasunao
738b5a98-cadc-41e5-83ae-b71690712c72
Griffin, Michael J.
24112494-9774-40cb-91b7-5b4afe3c41b8
2002
Matsumoto, Yasunao
738b5a98-cadc-41e5-83ae-b71690712c72
Griffin, Michael J.
24112494-9774-40cb-91b7-5b4afe3c41b8
Matsumoto, Yasunao and Griffin, Michael J.
(2002)
Non-linear characteristics in the dynamic responses of seated subjects exposed to vertical whole-body vibration.
Journal of Biomechanical Engineering, 124 (5), .
(doi:10.1115/1.1499959).
Abstract
The effect of the magnitude of vertical vibration on the dynamic response of the seated human body has been investigated. Eight male subjects were exposed to random vibration in the 0.5 to 20 Hz frequency range at five magnitudes: 0.125, 0.25, 0.5, 1.0 and 2.0 ms(-2) r.m.s. The dynamic responses of the body were measured at eight locations: at the first, fifth, and tenth thoracic vertebrae (T1, T5, T10), at the first, third, and fifth lumbar vertebrae (L1, L3, L5) and at the pelvis (the posterior-superior iliac spine). At each location, the motions on the body surface were measured in the three orthogonal axes within the sagittal plane (i.e., the vertical, fore-and-aft, and pitch axes).
The force at the seat surface was also measured. Frequency response functions (i.e., transmissibilities and apparent mass) were used to represent the responses of the body. Non-linear characteristics were observed in the apparent mass and in the transmissibilities to most measurement locations. Resonance frequencies in the frequency response functions decreased with increases in the vibration magnitude (e.g. for the vertical transmissibility to L3, a reduction from 6.25 to 4.75 Hz when the vibration magnitude increased from 0.125 to 2.0 ms(-2) r.m.s.). The transmission of vibration within the spine also showed some evidence of a non-linear characteristic. It can be concluded from this study that the dynamic responses of seated subjects are clearly non-linear with respect to vibration magnitude, whereas previous studies have reported inconsistent conclusions. More understanding of the dependence on vibration magnitude of both the dynamic responses of the soft tissues of the body and the muscle activity (voluntary and involuntary) is required to identify the causes of the non-linear characteristics observed in this study.
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Published date: 2002
Keywords:
dynamic response, vibrations, biomechanics, frequency response, bone, orthopaedics
Organisations:
Human Sciences Group
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Local EPrints ID: 28296
URI: http://eprints.soton.ac.uk/id/eprint/28296
ISSN: 0148-0731
PURE UUID: 591d58a0-1142-4ff0-b05d-ba238684367e
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Date deposited: 02 May 2006
Last modified: 15 Mar 2024 07:24
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Author:
Yasunao Matsumoto
Author:
Michael J. Griffin
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