Title :
Force sensing control for electric powered wheelchairs
Author :
Cooper, Rory A. ; Widman, Lana M. ; Jones, Daniel K. ; Robertson, Rick N. ; Ster, James F., III
Author_Institution :
Dept. of Rehabilitation Sci. & Technol., Pittsburgh Univ., PA, USA
fDate :
1/1/2000 12:00:00 AM
Abstract :
People with many types of disabilities use electric powered wheelchairs (EPWs) for mobility. Excessive intention tremor, limited range of motion, athetoid motions, and spastic rigidity can reduce or prohibit the control over an EPW. This study focused on the design and testing of a newly developed isometric joystick (IJ) for EPW control. The IJ was tested against existing performance standards and compared to a commercial position sensing joystick (PSJ). When averaged across all subjects (both controls and impaired subjects) the root-mean-square tracking error and time to complete the driving course were not significantly different when using the rule (p<0.05). Results within a subject, however, did show significance. Across all subjects, nevertheless, the IJ was superior to the PSJ for two tasks: driving straight and driving in a circle. Further development of control algorithms, especially the implementation of digital control, could lead to greater improvement in performance with the IJ
Keywords :
digital control; feedback; force control; interactive devices; athetoid motions; electric powered wheelchairs; force sensing control; intention tremor; isometric joystick; performance standards; root-mean-square tracking error; spastic rigidity; Aerospace testing; Biomedical engineering; Computer science; Digital control; Error correction; Force control; Force sensors; Man machine systems; Motion control; Wheelchairs;
Journal_Title :
Control Systems Technology, IEEE Transactions on
