人类手臂运动中的力与阻抗模型。

A model of force and impedance in human arm movements.

作者信息

Tee K P, Burdet E, Chew C M, Milner T E

机构信息

Department of Mechanical Engineering, National University, of Singapore.

出版信息

Biol Cybern. 2004 May;90(5):368-75. doi: 10.1007/s00422-004-0484-4. Epub 2004 Jun 14.

DOI:10.1007/s00422-004-0484-4

PMID:15221397

Abstract

This paper describes a simple computational model of joint torque and impedance in human arm movements that can be used to simulate three-dimensional movements of the (redundant) arm or leg and to design the control of robots and human-machine interfaces. This model, based on recent physiological findings, assumes that (1) the central nervous system learns the force and impedance to perform a task successfully in a given stable or unstable dynamic environment and (2) stiffness is linearly related to the magnitude of the joint torque and increased to compensate for environment instability. Comparison with existing data shows that this simple model is able to predict impedance geometry well.

摘要

本文描述了一种用于人体手臂运动中关节扭矩和阻抗的简单计算模型，该模型可用于模拟（冗余）手臂或腿部的三维运动，并设计机器人和人机界面的控制。基于最近的生理学发现，该模型假设：（1）中枢神经系统学习在给定的稳定或不稳定动态环境中成功执行任务所需的力和阻抗；（2）刚度与关节扭矩大小呈线性关系，并会增加以补偿环境的不稳定性。与现有数据的比较表明，这个简单模型能够很好地预测阻抗几何形状。

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人类手臂运动中的力与阻抗模型。

A model of force and impedance in human arm movements.

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