Development and calibration of drum-based rolling resistance testing machine for manual wheelchair components

Ott, J. Steven; MacDonell, Marcus; Henderson, Travis; Wilson-Jene, Holly; Lee, London; Pearlman, Jonathan

doi:10.3233/tad-200285

Cited by 2 publications

(1 citation statement)

References 25 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…drag, drum) or indirectly by quantifying a proxy such as deceleration or power consumption. 16 Direct measurement of RR force allows a more direct comparison across studies (by comparing a measured force rather than proxy measurements) and is thought to be more accurate than indirect measurement, 8,20 although each test method has benefits and limitations. 8 Drum-based component level testing was developed to improve test accuracy by directly measuring forces in a controlled environment where potential confounders (caster trail, alignment, camber, etc.)…”

Section: Introductionmentioning

confidence: 99%

A novel approach to directly measuring wheel and caster rolling resistance accurately predicts user-wheelchair system-level rolling resistance

Wilson-Jene

Cowan

Pearlman

2023

Journal of Rehabilitation and Assistive Technologies Engineerin

Self Cite

View full text Add to dashboard Cite

Introduction Clinical practice guidelines for preservation of upper extremity recommend minimizing wheelchair propulsion forces. Our ability to make quantitative recommendations about the effects of wheelchair configuration changes is limited by system-level tests to measure rolling resistance (RR). We developed a method that directly measures caster and propulsion wheel RR at a component-level. The study purpose is to assess accuracy and consistency of component-level estimates of system-level RR. Methods The RR of N = 144 simulated unique wheelchair-user systems were estimated using our novel component-level method and compared to system-level RR measured by treadmill drag tests, representing combinations of caster types/diameters, rear wheel types/diameters, loads, and front-rear load distributions. Accuracy was assessed by Bland-Altman limits of agreement (LOA) and consistency by intraclass correlation (ICC). Results Overall ICC was 0.94, 95% CI [0.91–0.95]. Component-level estimates were systematically lower than system-level (−1.1 N), with LOA +/−1.3 N. RR force differences between methods were constant over the range of test conditions. Conclusion Component-level estimates of wheelchair-user system RR are accurate and consistent when compared to a system-level test method, evidenced by small absolute LOA and high ICC. Combined with a prior study on precision, this study helps to establish validity for this RR test method.

show abstract