Biomimetic object impedance control for dual-arm cooperative 7-DOF manipulators

Biomimetic object impedance control for dual-arm cooperative 7-DOF manipulators

To mimic human behavior is an increasing trend for advanced robot control. In this paper, a novel biomimetic object impedance control strategy (BOI) is presented for dual-arm cooperative 7-DOF humanoid manipulators. A general impedance architecture comprising internal impedance control and object im...

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Bibliographic Details
Published in:Robotics and autonomous systems Vol. 75; pp. 273 - 287
Main Authors: Ren, Yi, Liu, Yechao, Jin, Minghe, Liu, Hong
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2016
Subjects:
Biomimetic object impedance
Cooperative humanoid manipulators
Robotic control
Cooperative humanoid manipulators
Robotic control
Biomimetic object impedance
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Summary:To mimic human behavior is an increasing trend for advanced robot control. In this paper, a novel biomimetic object impedance control strategy (BOI) is presented for dual-arm cooperative 7-DOF humanoid manipulators. A general impedance architecture comprising internal impedance control and object impedance control is adopted, which aims at conferring impedance behavior both in end-effector level and object level. Asymptotic stability and convergence of this controller are strictly derived from Lyapunov stability theory. Compared with conventional object impedance, the proposed controller can show different object impedance characteristics according to the external force applied on the object. It also can simultaneously minimize the energy cost of the adaptation process. Simulation and experimental results indicate that this controller exhibits explicit compliance behavior when the interaction with environment is weak and presents accumulation property of the stiffness and damping accordingly when the interaction is strong. This human-like characteristic enables the object/dual-arm system to deal with complex and unknown environmental disturbances. •A novel biomimetic object impedance controller is proposed.•Object/internal impedance are simultaneously achieved in a unified architecture.•Stiffness and damping of the object impedance can be adapted accordingly.•Agilely dealing with unknown interactions for object/dual-arm system is enabled.•Strict stability analysis with simulation and experiments are given.
ISSN:0921-8890
1872-793X
DOI:10.1016/j.robot.2015.09.018