John R. Powers scite author profile

The study evaluated the effects of shoe style on workers' instability during walking at elevation. Twenty-four construction workers performed walking tasks on roof planks in a surround-screen virtual reality system, which simulated a residential roof environment. Three common athletic and three work shoe styles were tested on wide, narrow and tilted planks on a simulated roof and on an unrestricted surface at simulated ground. Dependent variables included lateral angular velocities of the trunk and the rear foot, as well as the workers' rated perceptions of instability. The results demonstrated that shoe style significantly affected workers walking instability at elevated work environments. The results highlighted two major shoe-design pathways for improving walking balance at elevation: enhancing rear foot motion control; and improving ankle proprioception. This study also outlined some of the challenges in optimal shoe selection and specific shoe-design needs for improved walking stability during roof work. The study adds to the knowledge in the area of balance control, by emphasising the role of footwear as a critical human-support surface interface during work on narrow surfaces at height. The results can be used for footwear selection and improvements to reduce risk of falls from elevation.

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Student performance, attrition, and class size given missing student data

Becker

Powers

2001

Economics of Education Review

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Postural stability effects of random vibration at the feet of construction workers in simulated elevation

et al. 2011

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Preventing tractor rollover fatalities: performance of the NIOSH AutoROPS

Powers

Harris²,

Etherton³

et al. 2001

Inj Prev

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Approximately 132 agricultural tractor overturn fatalities occur per year. The use of rollover protective structures (ROPS), along with seat belts, is the best known method for preventing these fatalities. One impediment to ROPS use, however, is low clearance situations, such as orchards and animal confinement buildings.To address the need for ROPS that are easily adapted to low clearance situations, the Division of Safety Research, National Institute for Occupational Safety and Health (NIOSH), developed an automatically deploying, telescoping ROPS (Auto-ROPS). The NIOSH AutoROPS consists of two subsystems. The first is a retractable ROPS that is normally latched in its lowered position for day-to-day use. The second subsystem is a sensor that monitors the operating angle of the tractor. If a rollover condition is detected by the sensor, the retracted ROPS will deploy and lock in the full upright position before ground contact.Static load testing and field upset tests of the NIOSH AutoROPS have been conducted in accordance with SAE standard J2194. Additionally, timed trials of the AutoROPS deployment mechanism were completed. The design of the retractable ROPS and sensor, as well as the results of the diVerent testing phases are discussed. (Injury Prevention 2001;7(Suppl I):i54-58)

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John R. Powers

Valuing water quality improvements in the United States using meta-analysis: Is the glass half-full or half-empty for national policy analysis?

Footwear effects on walking balance at elevation

Student performance, attrition, and class size given missing student data

Postural stability effects of random vibration at the feet of construction workers in simulated elevation

Preventing tractor rollover fatalities: performance of the NIOSH AutoROPS

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