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| Hiroshi Imamizu
(Group Leader) imamizu@atr.co.jp |
Rieko Osu
osu@atr.co.jp |
Tomoe Tamada | Toshinori Yoshioka
yosioka@atr.co.jp |
Sensory-motor control research has recently
come to provide a comprehensive account
of how the central nervous system (CNS) may plan purposeful
acts starting from sensory input to motor output. Thus,
computational theories and models concerning human
motor control and learning are being
examined using a high-performance manipulandom, EMG, and
non-invasive methods of investigating human brain activities (e.g.
fMRI). Hopefully, it will become possible:
1) to identify how, where, and when
computational problems of motor control and learning (e.g.,
trajectory planning, coordinate transformation,
generation of motor commands, and acquisition
of internal models) are solved in the CNS, and
2) to investigate whether human subjects can learn optimization
principles in trajectory planning and whether
the principles contribute to the perception
of the human body motion. Based on our studies on human
sensorimotor control, we are coming to grasp with higher order
cognitive functions, such as abilities to use
tools.
Research Topics
Human motor control and learning
Sensory-motor transformation
Optimization principles in trajectory planning
Cerebro-cerebellar connectivity for use of
tools
Modular organization of cerebellar learning
mechanism
Members
|
|
|
|
| Hiroshi Imamizu
(Group Leader) imamizu@atr.co.jp |
Rieko Osu
osu@atr.co.jp |
Tomoe Tamada | Toshinori Yoshioka
yosioka@atr.co.jp |
Imamizu H., Miyauchi S., Tamada T., Sasaki Y., Takino R., Puetz B., Yoshioka T., Kawato M.: Human cerebellar activity reflecting an acquired internal model of a novel tool. Nature 2000 403:192-195
Osu R, Gomi H: Multi-joint muscle regulation mechanisms examined by measured human-arm stiffness and EMG signals. Journal of Neurophysiology 1999 81(4):1458-1468
Tamada T, Miyauchi S, Imamizu H, Yoshioka T, Kawato M: Cerebro-cerebellar functional connectivity revealed by the laterality index in tool-use learning. NeuroReport 1999 10(2):325-331
Nakano E., Imamizu H., Osu R., Uno Y., Gomi H., Yoshioka T., & Kawato M. "Quantitative Examination of Internal Representations for Arm Trajectory Plannning: Minimum Commanded Torque Change Model" Journal of Neurophysiology 1999 81(5):2140-2155
Gomi H, Osu R Task-dependent viscoelasticity of human multijoint arm and its spatial characteristics for interaction with environments. J Neurosci 1998 18(21):8965-78
Imamizu H, Uno Y, Kawato M Adaptive internal model of intrinsic kinematics involved in learning an aiming task. J Exp Psychol Hum Percept Perform 1998 24(3):812-29
Osu R, Uno Y, Koike Y, Kawato M Possible explanations for trajectory curvature in multijoint arm movements. J Exp Psychol Hum Percept Perform 1997 23(3):890-913
Links to collaborators
Communications Research Laboratory
Prof.
Youji Uno
System
Application Labpratory
Toyohashi
University of Technology
Dr.
Hiroaki Gomi
Information
Science Research Laboratory
NTT
Basic Research Laboratories
Dr. Eri
Nakano
Department
3
ATR Human
Information Processiong Research Laboratories