• DocumentCode
    2745835
  • Title

    Model-based development of a user control algorithm for postural control via a FES-based standing neuroprosthesis

  • Author

    Heilman, B.P. ; Kirsch, R.F.

  • Volume
    2
  • fYear
    2004
  • fDate
    1-5 Sept. 2004
  • Firstpage
    4614
  • Lastpage
    4617
  • Abstract
    The goal of this study was to devise an algorithm that would allow the user of a functional electrical stimulation (FES)-based neuroprosthesis to command desired transitions in body center of mass (COM) via smooth changes in lower extremity joint angles. Simulations were performed with a musculoskeletal model modified to reflect an individual with thoracic spinal cord injury, as well as the use of a 16 channel FES system. These simulations indicated useful subsets of 16 muscles, and a set of four polynomial surfaces were fit through the space relating COMx, COMy, and each of the four lower extremity joint angles studied. These polynomial surfaces provided a robust method for selecting a particular, smooth trajectory through this space. These results indicate that a 16-channel FES system should be capable of allowing users to shift postures over a significant fraction of the forward-backward range used by able-bodied individuals during typical activities.
  • Keywords
    biomechanics; medical control systems; neuromuscular stimulation; physiological models; prosthetics; FES-based standing neuroprosthesis; body center of mass; functional electrical stimulation; lower extremity joint angles; muscles; musculoskeletal model; postural control; thoracic spinal cord injury; user control algorithm; Extremities; Joints; Leg; Muscles; Musculoskeletal system; Neuromuscular stimulation; Pelvis; Polynomials; Spinal cord injury; Surface fitting; functional electrical stimulation; musculoskeletal model; spinal cord injury;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Engineering in Medicine and Biology Society, 2004. IEMBS '04. 26th Annual International Conference of the IEEE
  • Conference_Location
    San Francisco, CA
  • Print_ISBN
    0-7803-8439-3
  • Type

    conf

  • DOI
    10.1109/IEMBS.2004.1404279
  • Filename
    1404279