一种应用于由麦基本人工肌肉驱动的单关节机器人手臂控制的小脑通路模型。

A model of the cerebellar pathways applied to the control of a single-joint robot arm actuated by McKibben artificial muscles.

作者信息

Eskiizmirliler S, Forestier N, Tondu B, Darlot C

机构信息

Département de Traitement des signaux et des images, Ecole Nationale Supérieure des Télécommunications, Cedex 13, 75634 Paris, France.

出版信息

Biol Cybern. 2002 May;86(5):379-94. doi: 10.1007/s00422-001-0302-1.

DOI:10.1007/s00422-001-0302-1

PMID:11984652

Abstract

This article describes an expanded version of a previously proposed motor control scheme, based on rules for combining sensory and motor signals within the central nervous system. Classical control elements of the previous cybernetic circuit were replaced by artificial neural network modules having an architecture based on the connectivity of the cerebellar cortex, and whose functioning is regulated by reinforcement learning. The resulting model was then applied to the motion control of a mechanical, single-joint robot arm actuated by two McKibben artificial muscles. Various biologically plausible learning schemes were studied using both simulations and experiments. After learning, the model was able to accurately pilot the movements of the robot arm, both in velocity and position.

摘要

本文描述了一种先前提出的运动控制方案的扩展版本，该方案基于中枢神经系统内感觉和运动信号组合的规则。先前控制论回路的经典控制元件被人工神经网络模块所取代，这些模块具有基于小脑皮质连接性的架构，其功能由强化学习调节。然后将所得模型应用于由两个麦基本人工肌肉驱动的机械单关节机器人手臂的运动控制。使用模拟和实验研究了各种具有生物学合理性的学习方案。学习后，该模型能够在速度和位置方面准确地引导机器人手臂的运动。

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一种应用于由麦基本人工肌肉驱动的单关节机器人手臂控制的小脑通路模型。

A model of the cerebellar pathways applied to the control of a single-joint robot arm actuated by McKibben artificial muscles.

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