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Johanning, E.
1
; Fischer, S.
2
; Christ, E.
2
; Gores, B.
2
; Luhrman, R.
1
Railroad locomotive whole-body vibration study: vibration, shocks and seat ergonomics
Proceedings of the 1st American Conference on Human Vibration
Affiliations
1
Occupational and Environmental Life Science, Albany, NY, U.S.A.
2
BG Institute for Occupational Safety and Health (BGIA), Alte Heerstrasse Sankt Augustin, Germany
Cited Works (2)
Year
Entry
2002
Johanning E, Fischer S, Christ E, Göres B, Landsbergis P. Whole-body vibration exposure study in U.S. railroad locomotives: an ergonomic risk assessment.
AIHA J
. July–August 2002;63(4):439-446.
2004
Mechanical Vibration and Shock: Evaluation of Human Exposure to Whole-Body Vibration, V: Method for Evaluation of Vibration Containing Multiple Shocks
. ISO Standard ISO 2631-5. [ISO Standard thesis]. Geneva, Switzerland: International Organization for Standardization; 2004.
Cited By (4)
Year
Entry
2013
Eger TR, Kociolek AM, Dickey JP. Comparing health risks to load-haul-dump vehicle operators exposed to whole-body vibration using EU Directive 2002/44EC, ISO 2631-1 and ISO 2631-5.
Minerals
. 2013;3(1):16-35.
2008
Eger T, Stevenson J, Boileau P-É, Salmoni A; VibRG. Predictions of health risks associated with the operation of load-haul-dump mining vehicles, I: analysis of whole-body vibration exposure using ISO 2631-1 and ISO-2631-5 standards.
Int J Ind Ergon
. 2008;38(9-10):726-738.
2008
Eger T, Stevenson J, Callaghan JP, Grenier S; VibRG. Predictions of health risks associated with the operation of load-haul-dump mining vehicles, II: evaluation of operator driving postures and associated postural loading.
Int J Ind Ergon
. 2008;38(9-10):801-815.
2007
Mansfield NJ, Maeda S. The apparent mass of the seated human exposed to single-axis and multi-axis whole-body vibration.
J Biomech
. 2007;40(11):2543-2551.