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Citation |
Larsson A, Berggard G, Rosander P, Gard G. Int. J. Environ. Res. Public Health 2019; 16(14): e16142451. |
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Affiliation |
Department of Health Sciences, LuleƄ University of Technology, LuleƄ 97187, Sweden. |
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Copyright |
(Copyright © 2019, MDPI: Multidisciplinary Digital Publishing Institute) |
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DOI |
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PMID |
31295887 |
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Abstract |
It is important to find criteria for preventive measures and appropriate assistive devices to reduce pedestrian injuries and increase walking in winter. Reducing the rate of falls on icy surfaces and improving people's ability to safely cross a street in winter conditions by achieving an adequate walking speed, for example, need to be considered. This study explores pedestrian perceptions of fall risk, balance, and footfall transitions while using different designs for anti-slip devices on ice and snow-covered ice and relates these to measures of gait speed and friction. Trials were performed with nine pedestrians testing 19 anti-slip devices on ice and ice covered with snow. Laboratory tests of the dynamic coefficient of friction (DCOF) on plain ice were also performed. The findings suggest that there was conformity in the participants' perceptions of good balance and low fall risk for one-fifth of the devices (three whole-foot designs and one design with built-in spikes). We also found that gait speed on icy pedestrian crossings is related to perceived fall-risk and balance control, but not to DCOF of the anti-slip devices. Language: en |
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Keywords |
anti-slip device; classification; gait speed; pedestrian crossing; postural control; safety; winter conditions |