Title :
Parallel processing of direction and extent in reaching movements
Author :
Gordon, James ; Ghilardi, Maria Felice ; Ghez, Claude
Author_Institution :
Center for Neurobiol. & Behavior, Columbia Univ., New York, NY, USA
Abstract :
Summary form only given. Reaching movements, in which the hand is moved to a target location, require a sensorimotor transformation; the intended path, initially specified in extrinsic coordinates, must be transformed into a set of intrinsic coordinates that specify a pattern of muscle activation that will bring the hand to the target. A common framework for studying how the nervous system achieves this transformation is derived from robotics; it assumes a series of intermediate stages, including inverse kinematics and inverse dynamics computations. Experiments to characterize the coordinate systems in which reaching movements are planned and to determine whether serial computational strategies are used for planning hand trajectories are described.<>
Keywords :
biomechanics; coordinate systems characterization; extrinsic coordinates; hand trajectories planning; intrinsic coordinates; inverse dynamics computations; inverse kinematics; movement direction; movement extent; nervous system; parallel processing; robotics; sensorimotor transformation; serial computational strategies; Acceleration; Computer errors; Muscles; Nervous system; Parallel processing; Process planning; Robot kinematics; Robot sensing systems; Strategic planning; Trajectory;
Journal_Title :
Engineering in Medicine and Biology Magazine, IEEE
