Predictors of whole-body vibration exposure experienced by highway transport truck operators

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Cann, Adam P.¹; Salmoni, Alan W.²; Eger, Tammy R.³

Predictors of whole-body vibration exposure experienced by highway transport truck operators

Ergonomics. October 22, 2004;47(13):1432-1453

©2004 Taylor & Francis Ltd

Affiliations

¹Department of Rehabilitation Sciences, University of Western Ontario, London, Ontario, Canada

²School of Kinesiology, University of Western Ontario, London, Ontario, Canada

³School of Human Kinetics Laurentian University, Sudbury, Ontario, Canada
Abstract and keywords

Whole-body-vibration (WBV) exposure levels experienced by transport truck operators were investigated to determine whether operator’s exposure exceeded the 1997 International Standards Organization (ISO) 2631-1 WBV guidelines. A second purpose of the study was to determine which truck characteristics predicted the levels of WBV exposures experienced. The predictor variables selected based on previous literature and our transportation consultant group included road condition, truck type, driver experience, truck mileage and seat type. Tests were conducted on four major highways with 5 min random samples taken every 30 min of travel at speeds greater than or equal to 80 km/h (i.e. highway driving). Results indicated operators were not on average at increased risk of adverse health effects from daily exposures when compared to the ISO WBV guidelines. Significant regression models predicting the frequency-weighted RMS accelerations for the x (F(5,97)=8.63, p50.01), y (F(5,97)=7.74, p50.01), z (F(5,61)=9.83, p50.01) axes and the vector sum of the orthogonal axes (F(5,61)=13.89, p50.01) were observed. Road condition was a significant predictor (p50.01) of the frequency-weighted RMS accelerations for all three axes and the vector sum of the axes, as was truck type (p50.01) for the z-axis and vector sum. Future research should explore the effects of seasonal driving, larger vehicle age differences, greater variety of seating and suspension systems and team driving situations.

Keywords: Whole-body vibration; vibration exposure; transportation; ISO 2631; regression
Links

DOI: 10.1080/00140130410001712618

PubMed: 15513718

WoS: 000224176800005

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