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Switching curve control of functional electrical stimulation assisted rowing exercise in paraplegia

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Abstract

An indoor rowing machine has been modified for functional electrical stimulation (FES) assisted rowing exercise in paraplegia. To perform the rowing manoeuvre successfully, however, the voluntarily controlled upper body movements must be co-ordinated with the movements of the electrically stimulated paralysed legs. To achieve such co-ordination, an automatic FES controller was developed that employs two levels of hierarchy. At the upper level, a finite state controller identifies the state or phase of the rowing cycle and activates the appropriate lower-level controller, in which electrical stimulation to the paralysed leg muscles is applied with reference to switching curves representing the desired seat velocity as a function of the seat position. In a pilot study, the hierarchical control of FES rowing was shown to be intuitive, reliable and easy to use. Compared with open-loop control of stimulation, all three variants of the closed-loop switching curve controllers used less muscle stimulation per rowing cycle (73% of the open-loop control on average). Further, the closed-loop controller that used switching curves derived from normal rowing kinematics used the lowest muscle stimulation (65% of the open-loop control) and was the most convenient to use for the client.

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References

  • Andrews, B. J., Barnett, R. W., Phillips, G. F., Kirkwood, C. A., Donaldson, N., Rushton, D. N., andPerkins, T. A. (1989): ‘Rule-based control of a hybrid FES orthosis for assisting paraplegic locomotion’,Automedica,11, pp. 175–199

    Google Scholar 

  • Andrews, B. J. (1990): ‘Hybrid orthese fur die Fortbevegung von Querschnittsgelahmten’,Medizinisch-Orthopadische Technik,110, pp. 84–88

    Google Scholar 

  • Davoodi, R., Andrews, B. J., andWheeler, G. (2001): ‘Modified concept 2TM rowing machine with manual FES controller for total body exercise in paraplegia’. Proc. 6th International Functional Electrical Stimulation Society, Cleveland, Ohio, USA, pp. 114–116

  • Davoodi, R., Andrews, B. J., Wheeler, G. D., andLederer, R. (2002): ‘Development of an indoor rowing machine with manual FES controller for total body exercise in paraplegia’,IEEE Trans. Neural Sys. Rehabil. Eng.,10, pp. 197–203

    Google Scholar 

  • Dolan, M. J., Andrews, B. J., andVeltink, P. H. (1998): ‘Switching curve controller for FES-assisted standing up and sitting down’,IEEE Trans. Rehabil. Eng.,6, pp. 167–171

    Article  Google Scholar 

  • Mulder, A. J., Veltink, P. H., andBoom, H. B. (1992): ‘On/off control in FES-induced standing up: A model study and experiments’,Med. Biol. Eng. Comput.,30, pp. 205–212

    Google Scholar 

  • Mutton, D. L., Scremin, A. M., Barstow, T. J., Scott, M. D., Kunkel, C. F., andCagle, T. G. (1997): ‘Physiologic responses during functional electrical stimulation leg cycling and hybrid exercise in spinal cord injured subjects’,Arch. Phys. Med. Rehabil.,78, pp. 712–718

    Article  Google Scholar 

  • Olenik, L. M., Laskin, J. J., Burnham, R., Wheeler, G. D., andSteadward, R. D. (1995): ‘Efficacy of rowing, backward wheeling and isolated scapular retractor exercise as remedial strength activities for wheelchair users: application of electromyography’,Paraplegia,33, pp. 148–152

    Google Scholar 

  • Raymond, J., Davis, G. M., Climstein, M., andSutton, J. R. (1999): ‘Cardiorespiratory responses to arm cranking and electrical stimulation leg cycling in people with paraplegia’,Med. Sci. Sports Exerc.,31, pp. 822–828

    Google Scholar 

  • Sweeny, P. C., Lyons, G. M., andVeltink, P. H. (2000): ‘Finite state control of functional electrical stimulation for the rehabilitation of gait’,Med. Biol. Eng. Comput.,38, pp. 121–126

    Google Scholar 

  • Tomovic, R., andMcGhee, R. (1966): ‘A finite state approach to the synthesis of bioengineering control systems’,IEEE Trans. Human Factors Electron.,7, pp. 122–128

    Google Scholar 

  • Washburn, R. A., andFigoni, S. F. (1999): ‘High density lipoprotein cholesterol in individuals with spinal cord injury: the potential role of physical activity’,Spinal Cord,37, pp. 685–695

    Article  Google Scholar 

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Authors and Affiliations

  1. Alfred E. Mann Institute & Department of Biomedical Engineering, University of Southern California, Los Angeles, USA

    R. Davoodi

  2. National Spinal Injury Center, Stoke Mandeville Hospital, & Department of Cybernetics, University of Reading, Aylesbury, UK

    B. J. Andrews

Authors
  1. R. Davoodi
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  2. B. J. Andrews
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Correspondence to R. Davoodi.

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Davoodi, R., Andrews, B.J. Switching curve control of functional electrical stimulation assisted rowing exercise in paraplegia. Med. Biol. Eng. Comput. 41, 183–189 (2003). https://doi.org/10.1007/BF02344886

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  • DOI: https://doi.org/10.1007/BF02344886

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