• DocumentCode
    1527406
  • Title

    Compensation of hand movement for patients by assistant force: relationship between human hand movement and robot arm motion

  • Author

    Bai, Ou ; Nakamura, Masatoshi ; Shibasaki, Hiroshi

  • Author_Institution
    Dept. of Adv. Syst. Control Eng., Saga Univ., Japan
  • Volume
    9
  • Issue
    3
  • fYear
    2001
  • Firstpage
    302
  • Lastpage
    307
  • Abstract
    As some functional diseases in the brain, such as cerebellum dysfunction and Parkinson´s disease, cause disability related to human movement control, a compensation method was developed for improving the performance of hand movement. The compensation can be carried out by adding assistant force, which is generated from artificial equipment attached to a human arm. From the experiment of visual target tracking, the tracking trajectories recorded from both healthy persons and patients with movement disability were analyzed. It was found that the tracking trajectories were represented sufficiently by a dynamic model of a robot arm in which the differences between healthy persons and patients were characterized by the model parameters. Based on the model, it was demonstrated that the hand movement of patients could be improved by introducing an appropriate compensation. The effectiveness of the proposed compensation method was verified from a simulation study of a robot arm. The design of artificial equipment for compensating the hand movement was also presented and discussed.
  • Keywords
    biocontrol; force feedback; handicapped aids; medical robotics; motion compensation; motion control; physiological models; tracking; Parkinson´s disease; artificial equipment design; assistant force; cerebellum dysfunction; dynamic model; feedforward; hand movement compensation; human hand movement; model parameters; robot arm motion; servo control system; tracking trajectories; transfer function; uman movement control; visual target tracking; Control systems; Electrical equipment industry; Force control; Humans; Motion control; Parkinson´s disease; Robots; Servosystems; Target tracking; Trajectory; Biofeedback (Psychology); Brain; Cerebellar Diseases; Computer Simulation; Electric Stimulation Therapy; Equipment Design; Functional Laterality; Humans; Motor Skills; Parkinson Disease; Psychomotor Performance; Range of Motion, Articular; Robotics;
  • fLanguage
    English
  • Journal_Title
    Neural Systems and Rehabilitation Engineering, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1534-4320
  • Type

    jour

  • DOI
    10.1109/7333.948459
  • Filename
    948459