Usability and Vibration Analysis of a Low-Profile Automatic Powered Wheelchair to Motor Vehicle Docking System
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Published:2023-02-24
Issue:1
Volume:6
Page:255-268
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ISSN:2571-631X
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Container-title:Vibration
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language:en
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Short-container-title:Vibration
Author:
Lee Chang12ORCID, Daveler Brandon12, Candiotti Jorge13ORCID, Cooper Rosemarie12, Sivakanthan Sivashankar12ORCID, Deepak Nikitha12, Grindle Garrett12, Cooper Rory123
Affiliation:
1. Human Engineering Research Laboratories, Department of Veterans Affairs Pittsburgh Healthcare System, University of Pittsburgh, Pittsburgh, PA 15206, USA 2. Department of Rehabilitation Science and Technology, University of Pittsburgh, Pittsburgh, PA 15213, USA 3. Department of Bioengineering, University of Pittsburgh, Pittsburgh, PA 15213, USA
Abstract
The QLX is a low-profile automatic powered wheelchair docking system (WDS) prototype developed to improve the securement and discomfort of wheelchair users when riding in vehicles. The study evaluates the whole-body vibration effects between the proposed QLX and another WDS (4-point tiedown system) following ISO 2631-1 standards and a systematic usability evaluation. Whole-body vibration analysis was evaluated in wheelchairs using both WDS to dock in a vehicle while riding on real-world surfaces. Also, participants rated the usability of each WDS while driving a wheelchair and while riding in a vehicle in driving tasks. Both WDSs showed similar vibration results within the vibration health-risk margins; but shock values below health-risk margins. Fifteen powered wheelchair users reported low task load demand to operate both WDS; but better performance to dock in vehicles with the QLX (p = 0.03). Also, the QLX showed better usability (p < 0.01), less discomfort (p’s < 0.05), and greater security compared to the 4-point tiedown while riding in a vehicle (p’s < 0.05). Study findings indicate that both WDS maintain low shock exposure for wheelchair users while riding vehicles, but a better performance overall to operate the QLX compared to the 4-point tiedown system; hence enhancing user’s autonomy to dock in vehicles independently.
Funder
BraunAbility U.S. Department of Transportation
Subject
Engineering (miscellaneous),Materials Science (miscellaneous)
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