A new wheelchair ergometer has been designed in which a combination of realistic simulation of wheelchair propulsion-with adjustable parameters for rolling resistance, air drag, wind speed and slope-and force measurement has been realised. The static solution enables the measurement of physiological and kinesiological parameters. All data from force transducers in seat and backrest, torque transducers in the wheels and force transducers in the wheelframes as well as the acquired speed are sampled in a data-acquisition system. An offline curve processor allows the acquired data to be processed with standard or custom-programmed routines. Preliminary results have been added and are discussed.

, , ,
doi.org/10.1007/BF02446151, hdl.handle.net/1765/72364
Medical & Biological Engineering & Computing
Biomedical Physics & Technology

Niesing, R., Eijskoot, F., Kranse, R., den Ouden, A., Storm, J., Veeger, D., … Snijders, C. (1990). Computer-controlled wheelchair ergometer. Medical & Biological Engineering & Computing, 28(4), 329–338. doi:10.1007/BF02446151