H Imamizu

Summary

Affiliation: Human Information Science Laboratories
Country: Japan

Publications

  1. ncbi request reprint Adaptive internal model of intrinsic kinematics involved in learning an aiming task
    H Imamizu
    Advanced Telecommunications Research Human Information Processing Research Laboratories, Kyoto, Japan
    J Exp Psychol Hum Percept Perform 24:812-29. 1998
  2. ncbi request reprint Human cerebellar activity reflecting an acquired internal model of a new tool
    H Imamizu
    JST ERATO Kawato Dynamic Brain Project, Soraku gun, Kyoto, Japan
    Nature 403:192-5. 2000
  3. ncbi request reprint Accurate real-time feedback of surface EMG during fMRI
    G Ganesh
    National Institute of Information and Communication Technology, Kyoto, Japan
    J Neurophysiol 97:912-20. 2007

Detail Information

Publications3

  1. ncbi request reprint Adaptive internal model of intrinsic kinematics involved in learning an aiming task
    H Imamizu
    Advanced Telecommunications Research Human Information Processing Research Laboratories, Kyoto, Japan
    J Exp Psychol Hum Percept Perform 24:812-29. 1998
    ..Results suggest that participants can learn the linear transformation in joint angles under the intrinsic coordinates and that the central nervous system adaptively represents the intrinsic kinematics...
  2. ncbi request reprint Human cerebellar activity reflecting an acquired internal model of a new tool
    H Imamizu
    JST ERATO Kawato Dynamic Brain Project, Soraku gun, Kyoto, Japan
    Nature 403:192-5. 2000
    ..The other was confined to the area near the posterior superior fissure and remained even after learning, when the error levels had been equalized, thus probably reflecting an acquired internal model of the new tool...
  3. ncbi request reprint Accurate real-time feedback of surface EMG during fMRI
    G Ganesh
    National Institute of Information and Communication Technology, Kyoto, Japan
    J Neurophysiol 97:912-20. 2007
    ..Comparisons show that the cleaned EMG obtained with the algorithm is, like actual EMG, very well correlated with joint torque and can thus be used for real-time visual feedback during functional studies...