• DocumentCode
    3398172
  • Title

    Integrated control system for FES-assisted locomotion after spinal cord injury

  • Author

    Kostov, Aleksmdar ; Stein, Richard B. ; Armstrong, William W. ; Thomas, Monroe ; Popovic, Dejan

  • Author_Institution
    Div. of Neurosci., Alberta Univ., Edmonton, Alta., Canada
  • Volume
    2
  • fYear
    1995
  • fDate
    20-23 Sep 1995
  • Firstpage
    1147
  • Abstract
    The objective of this study was to develop an integrated control system (ICS) for FES-assisted locomotion after incomplete spinal cord injury (SCI). The ICS incorporates a method for automatic generation of control rules for rule-based control. The rules are extracted from a set of sensory feedback signals and stimulation control signals recorded during FES-assisted walking controlled by a skilled therapist or the subject. The rule-generation method uses Adaptive Logic Networks (ALNs), a type of artificial neural network. The ICS provides a very efficient tool to acquire sensory and control signals, to process these signals, to train the ALNs in mapping the control function, to test the trained ALNs, and to use them for control signal generation in real-time control of the FES-assisted walking. Through experimental work it´s been demonstrated that ALNs are able to generate control rules quickly and to generalize not only over daily subsequent walking sessions but also over the sessions occurring several days after the training, which provides a good basis for design of robust control systems for FES-assisted walking. Evaluation of new subjects and automatic generation of control rules using ICS is possible within minutes compared to classic `hand-crafting´ methods which usually require weeks
  • Keywords
    adaptive control; biocontrol; bioelectric phenomena; biomechanics; force measurement; generalisation (artificial intelligence); handicapped aids; intelligent control; mechanical variables control; medical expert systems; muscle; neurocontrollers; neurophysiology; real-time systems; robust control; Adaptive Logic Networks; FES-assisted locomotion; FES-assisted walking; artificial neural network; automatic generation; control rules automatic generation; control signal generation; daily subsequent walking sessions; incomplete spinal cord injury; integrated control system; real-time control; robust control systems; rule-based control; sensory feedback signals; skilled therapist; spinal cord injury; stimulation control signals; subject; Adaptive systems; Artificial neural networks; Automatic control; Automatic generation control; Centralized control; Legged locomotion; Logic; Neurofeedback; Signal processing; Spinal cord injury;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Engineering in Medicine and Biology Society, 1995., IEEE 17th Annual Conference
  • Conference_Location
    Montreal, Que.
  • Print_ISBN
    0-7803-2475-7
  • Type

    conf

  • DOI
    10.1109/IEMBS.1995.579578
  • Filename
    579578