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References (28)
-
D. Sanders (1995)
Real- time geometric modeling using models in an actuator space and cartesian spaceJ. Field Robotics, 12
-
S. Urwin-Wright, D. Sanders, Sheng Chen (2002)
Terrain prediction for an eight-legged robotJ. Field Robotics, 19
-
A. Rudins, E. Laskowski, E. Growney, T. Cahalan, K. An (1997)
Kinematics of the elbow during wheelchair propulsion: a comparison of two wheelchairs and two stroking techniques.Archives of physical medicine and rehabilitation, 78 11
-
Stephen Erwin-Wright, D. Sanders, Sheng Chen (2003)
Predicting terrain contours using a feed-forward neural networkEngineering Applications of Artificial Intelligence, 16
-
M. Tolerico, D. Ding, R. Cooper, D. Spaeth, S. Fitzgerald, R. Cooper, A. Kelleher, M. Boninger (2007)
Assessing mobility characteristics and activity levels of manual wheelchair users.Journal of rehabilitation research and development, 44 4
-
Brian Woods, N. Watson (2003)
A Short History of Powered WheelchairsAssistive Technology, 15
-
R. Fuchs, Patricia Gromak (2003)
Wheelchair Use by Residents of Nursing Homes: Effectiveness in Meeting Positioning and Mobility NeedsAssistive Technology, 15
-
E. Trefler, S. Fitzgerald, D. Hobson, T. Bursick, Robert Joseph (2004)
Outcomes of Wheelchair Systems Intervention With Residents of Long-Term Care FacilitiesAssistive Technology, 16
-
R. Pate, M. Pratt, S. Blair, W. Haskell, C. Macera, C. Bouchard, D. Buchner, W. Ettinger, G. Heath, A. King, A. Kriska, Arther Leon, B. Marcus, Jeremy Morris, R. Paffenbarger, K. Patrick, M. Pollock, J. Rippe, J. Sallis, J. Wilmore (1995)
Physical Activity and Public Health: A Recommendation From the Centers for Disease Control and Prevention and the American College of Sports MedicineJAMA, 273
-
D. Sanders (1995)
The modification of pre-planned manipulator paths to improve the gross motions associated with the pick and place taskRobotica, 13
-
G. Trudel, R. Kirby, S. Ackroyd-Stolarz, S. Kirkland (1997)
Effects of rear-wheel camber on wheelchair stability.Archives of physical medicine and rehabilitation, 78 1
-
Reid M (1990)
10.2340/165019779022139143Scandinavian Journal of Rehabilitation Medicine, 22
-
D. Ruggles, T. Cahalan, K. An (1994)
Biomechanics of wheelchair propulsion by able-bodied subjects.Archives of physical medicine and rehabilitation, 75 5
-
E. Wolf, R. Cooper, J. Pearlman, S. Fitzgerald, A. Kelleher (2007)
Longitudinal assessment of vibrations during manual and power wheelchair driving over select sidewalk surfaces.Journal of rehabilitation research and development, 44 4
-
J. Webster, G. Cottam, W. Gouvier, P. Blanton, G. Beissel, J. Wofford (1989)
Wheelchair obstacle course performance in right cerebral vascular accident victims.Journal of clinical and experimental neuropsychology, 11 2
-
Ruggles DL (1994)
10.1016/S0003-9993(21)01616-6Archives of Physical Medicine Rehabilitation, 75
-
L.H.V. Woude, H. Veeger, H. Veeger, A. Dallmeijer, Thomas Janssen, L. Rozendaal (2001)
Biomechanics and physiology in active manual wheelchair propulsion.Medical engineering & physics, 23 10
-
M. Goodwin, D. Sanders, G. Poland, I. Stott (1997)
Navigational assistance for disabled wheelchair-usersJ. Syst. Archit., 43
-
Linda Roosmalen, M. Reed, G. Bertocci (2005)
Pilot Study of Safety Belt Usability for Vehicle Occupants Seated in WheelchairsAssistive Technology, 17
-
S. Hubbard, S. Fitzgerald, B. Vogel, D. Reker, R. Cooper, M. Boninger (2007)
Distribution and cost of wheelchairs and scooters provided by Veterans Health Administration.Journal of rehabilitation research and development, 44 4
-
P. Williams (1995)
Physical activity and public health.JAMA, 274 7
-
G. Trudel, R. Kirby, A. Bell (1995)
Mechanical effects of rear-wheel camber on wheelchairs.Assistive technology : the official journal of RESNA, 7 2
-
M. Reid, A. Lawrie, J. Hunter, P. Warren (2020)
The effect of steering on the physiological energy cost of wheelchair propulsion.Scandinavian journal of rehabilitation medicine, 22 3
-
P. Guerette, Donita Tefft, J. Furumasu (2005)
Pediatric Powered Wheelchairs: Results of a National Survey of ProvidersAssistive Technology, 17
-
I. Pettersson, Gerd Ahlström, K. Törnquist (2007)
The Value of an Outdoor Powered Wheelchair With Regard to the Quality of Life of Persons With Stroke: A Follow-Up StudyAssistive Technology, 19
-
A. Perdios, B. Sawatzky, A. Sheel (2007)
Effects of camber on wheeling efficiency in the experienced and inexperienced wheelchair user.Journal of rehabilitation research and development, 44 3
-
I. Stott, D. Sanders (2000)
New powered wheelchair systems for the rehabilitation of some severely disabled usersInternational Journal of Rehabilitation Research, 23
-
Brubaker Ce, Mclaurin Ca, McClay Is (1986)
Effects of side slope on wheelchair performance.Journal of Rehabilitation Research and Development, 23
- Publisher
- Emerald Publishing
- Copyright
- Copyright © 2008 Emerald Group Publishing Limited. All rights reserved.
- ISSN
- 1754-9450
- DOI
- 10.1108/17549450200800016
- Publisher site
- See Article on Publisher Site
Abstract
Simple and affordable systems are described to assist wheelchair users in steering their wheelchairs across sloping ground. The systems can be attached to many standard powered wheelchairs. Wheelchairs often steer by having two swivelling caster wheels but problems with this configuration occur when a wheelchair is driven along sloping ground because the casters can swivel in the direction of the slope. Gravity then causes the wheelchair to start an unwanted turn or ‘veer’ and the chair goes in an unintended direction. This situation is exacerbated for switch users, as switches cannot provide fine control to trim and compensate. Early experiments demonstrated that calibrating wheelchair controllers for straight‐line balance and optimising motor‐compensation did not solve this problem. Caster angle was selected to provide feedback to the wheelchair controllers. At the point when veer is first detected, a wheelchair has already begun to alter course and the job of the correction system is to minimise this drift from the desired course. A rolling road was created as an assessment tool and trials with both the test bed and in real situations were conducted to evaluate the new systems. The small swivel detector that was created could be successfully attached to caster swivel bearings. The new system was successful, robust and was not affected by changeable parameters. Although primarily intended for switch users, the methods can be applied to users with proportional controls.
Journal
Journal of Assistive Technologies – Emerald Publishing
Published: Jun 1, 2008
Keywords: Power wheelchair; Slope; Assistive technology; Veer correction; Driving; Mobility