Modeling Robotic Manipulators Powered by Variable Stiffness Actuators: A Graph-Theoretic and Port-Hamiltonian Formalism

Stefan S. Groothuis; Stefano Stramigioli; Raffaella Carloni

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Modeling Robotic Manipulators Powered by Variable Stiffness Actuators: A Graph-Theoretic and Port-Hamiltonian Formalism

机译：由可变刚度致动器驱动的机器人机械手建模：图论和哈密尔顿港形式主义

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This paper proposes a modeling method for generic compliant robotic manipulators. It is based on graph theory and the port-Hamiltonian formalism, which allows a modular approach to the interconnection of rigid bodies with compliant actuators by means of kinematic pairs. This modularity enables a simple and straight-forward adaption the model when a manipulator's actuator morphology is changed. An example of a spatial three degree-of-freedom manipulator shows that this modeling method is more suitable for modeling changes in actuator placement than the traditional Euler–Lagrange method.

机译：本文提出了通用兼容机器人操纵器的建模方法。它基于图论和哈密尔顿港形式主义，它允许通过运动学对将刚体与柔顺执行器互连的模块化方法。当操纵器的执行器形态发生变化时，这种模块化特性可以对模型进行简单，直接的调整。一个空间三自由度操纵器的例子表明，与传统的Euler–Lagrange方法相比，该建模方法更适合于建模执行器位置的变化。

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来源
《IEEE Transactions on Robotics》 |2017年第4期|807-818|共12页
作者
Stefan S. Groothuis; Stefano Stramigioli; Raffaella Carloni;
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作者单位

Faculty of Electrical Engineering, Mathematics and Computer Science, CTIT Institute, University of Twente, Enschede, The Netherlands;

Faculty of Electrical Engineering, Mathematics and Computer Science, CTIT Institute, University of Twente, Enschede, The Netherlands;

Faculty of Electrical Engineering, Mathematics and Computer Science, CTIT Institute, University of Twente, Enschede, The Netherlands;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Actuators; Manipulators; Graph theory; Mathematical model; Symmetric matrices; Adaptation models;

机译：执行器;操纵器;图论;数学模型;对称矩阵;适应模型;

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8. Robotic Sensors and Actuators for a Service Manipulator System. Volume 2. Service Manipulator System (SMS) Handbook [R] . Blais, T., Lacombe, J. L., Berger, G., 1986

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Modeling Robotic Manipulators Powered by Variable Stiffness Actuators: A Graph-Theoretic and Port-Hamiltonian Formalism

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