Passive coordination control of nonlinear bilateral teleoperated manipulators

Dongjun Lee; Perry Y. Li

Passive coordination control of nonlinear bilateral teleoperated manipulators

Dongjun Lee, Perry Y. Li

Mechanical Engineering

Research output: Contribution to journal › Conference article › peer-review

20 Scopus citations

Abstract

In this paper, a teleoperation controller is proposed for a pair of nonlinear master and slave manipulators. The control law enables the nonlinear robots to be perfectly coordinated despite arbitrary environment and human forcings, while ensuring that the closed loop teleoperator system is passive with respect to a supply rate that includes a user specified bilateral power scaling factor. After perfect coordination has been attained, the control law constrains n degrees of freedom (DOF). The dynamics of the remaining n degrees of freedom resembles those of a usual rigid robot. Thus, the teleoperator becomes a common rigid mechanical tool with which both the human operator and the physical environment interact. In a companion paper [1], a control methodology to endow the n-DOF common passive tool with useful tool dynamics is proposed.

Original language	English (US)
Pages (from-to)	3278-3283
Number of pages	6
Journal	Proceedings - IEEE International Conference on Robotics and Automation
Volume	3
State	Published - 2002
Event	2002 IEEE International Conference on Robotics adn Automation - Washington, DC, United States Duration: May 11 2002 → May 15 2002

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abstract = "In this paper, a teleoperation controller is proposed for a pair of nonlinear master and slave manipulators. The control law enables the nonlinear robots to be perfectly coordinated despite arbitrary environment and human forcings, while ensuring that the closed loop teleoperator system is passive with respect to a supply rate that includes a user specified bilateral power scaling factor. After perfect coordination has been attained, the control law constrains n degrees of freedom (DOF). The dynamics of the remaining n degrees of freedom resembles those of a usual rigid robot. Thus, the teleoperator becomes a common rigid mechanical tool with which both the human operator and the physical environment interact. In a companion paper [1], a control methodology to endow the n-DOF common passive tool with useful tool dynamics is proposed.",

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AB - In this paper, a teleoperation controller is proposed for a pair of nonlinear master and slave manipulators. The control law enables the nonlinear robots to be perfectly coordinated despite arbitrary environment and human forcings, while ensuring that the closed loop teleoperator system is passive with respect to a supply rate that includes a user specified bilateral power scaling factor. After perfect coordination has been attained, the control law constrains n degrees of freedom (DOF). The dynamics of the remaining n degrees of freedom resembles those of a usual rigid robot. Thus, the teleoperator becomes a common rigid mechanical tool with which both the human operator and the physical environment interact. In a companion paper [1], a control methodology to endow the n-DOF common passive tool with useful tool dynamics is proposed.

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Passive coordination control of nonlinear bilateral teleoperated manipulators

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