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An analytical model of the in-line and cross-axis apparent mass of the seated human body exposed to vertical vibration with and without a backrest

An analytical model of the in-line and cross-axis apparent mass of the seated human body exposed to vertical vibration with and without a backrest
An analytical model of the in-line and cross-axis apparent mass of the seated human body exposed to vertical vibration with and without a backrest
During vertical excitation of the seated human body there are vertical and fore-and-aft forces at the seat that are influenced by contact with a backrest, so it is desirable to take into account the effect of a backrest when developing models of the seated human body. Initially, a seven degree-of-freedom multi-body dynamic model was developed for the human body sitting with an upright posture unsupported by a backrest and exposed to vertical vibration. The model was optimized to fit the vertical apparent mass and the fore-and-aft cross-axis apparent mass measured on a seat. The model was then extended by the addition of vertical and fore-and-aft reaction forces to the upper lumbar spine to model the interaction between the human body and a backrest. By minimizing the least square error between experimental data and the analytical solution of the apparent masses on the seat and at the back, the human body model was able to represent both the vertical apparent mass and the fore-and-aft cross-axis apparent mass on the seat and at the back. Parameter sensitivity studies showed that the vertical apparent mass and the fore-and-aft cross-axis apparent mass on the seat and the backrest were all highly sensitive to the axial stiffness of the tissue beneath the pelvis. Pitch motion of the upper-body contributed to the vertical apparent mass and the fore-and-aft cross-axis apparent mass on the seat. The apparent mass at the back was more sensitive to the stiffness and damping of the lower back than the properties of the upper back.

0022-460X
6509-6525
Zheng, G.
dcdb031e-fb26-4b7d-9b83-66e71a7d0cbf
Qiu, Y.
ef9eae54-bdf3-4084-816a-0ecbf6a0e9da
Griffin, M.J.
24112494-9774-40cb-91b7-5b4afe3c41b8
Zheng, G.
dcdb031e-fb26-4b7d-9b83-66e71a7d0cbf
Qiu, Y.
ef9eae54-bdf3-4084-816a-0ecbf6a0e9da
Griffin, M.J.
24112494-9774-40cb-91b7-5b4afe3c41b8

Zheng, G., Qiu, Y. and Griffin, M.J. (2011) An analytical model of the in-line and cross-axis apparent mass of the seated human body exposed to vertical vibration with and without a backrest. Journal of Sound and Vibration, 330 (26), 6509-6525. (doi:10.1016/j.jsv.2011.06.026).

Record type: Article

Abstract

During vertical excitation of the seated human body there are vertical and fore-and-aft forces at the seat that are influenced by contact with a backrest, so it is desirable to take into account the effect of a backrest when developing models of the seated human body. Initially, a seven degree-of-freedom multi-body dynamic model was developed for the human body sitting with an upright posture unsupported by a backrest and exposed to vertical vibration. The model was optimized to fit the vertical apparent mass and the fore-and-aft cross-axis apparent mass measured on a seat. The model was then extended by the addition of vertical and fore-and-aft reaction forces to the upper lumbar spine to model the interaction between the human body and a backrest. By minimizing the least square error between experimental data and the analytical solution of the apparent masses on the seat and at the back, the human body model was able to represent both the vertical apparent mass and the fore-and-aft cross-axis apparent mass on the seat and at the back. Parameter sensitivity studies showed that the vertical apparent mass and the fore-and-aft cross-axis apparent mass on the seat and the backrest were all highly sensitive to the axial stiffness of the tissue beneath the pelvis. Pitch motion of the upper-body contributed to the vertical apparent mass and the fore-and-aft cross-axis apparent mass on the seat. The apparent mass at the back was more sensitive to the stiffness and damping of the lower back than the properties of the upper back.

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More information

Published date: 2011
Organisations: Human Sciences Group

Identifiers

Local EPrints ID: 186577
URI: http://eprints.soton.ac.uk/id/eprint/186577
DOI: doi:10.1016/j.jsv.2011.06.026
ISSN: 0022-460X
PURE UUID: fe18058f-3912-4052-b67b-d6d64a19b5d5
ORCID for M.J. Griffin: ORCID iD orcid.org/0000-0003-0743-9502

Catalogue record

Date deposited: 13 May 2011 13:15
Last modified: 14 Mar 2024 03:20

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Contributors

Author: G. Zheng
Author: Y. Qiu
Author: M.J. Griffin ORCID iD

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