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High‐gain nonlinear observer‐based impedance control for deformable object cooperative teleoperation with nonlinear contact model
Author(s) -
Lu Zhenyu,
Huang Panfeng,
Liu Zhengxiong
Publication year - 2020
Publication title -
international journal of robust and nonlinear control
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.361
H-Index - 106
eISSN - 1099-1239
pISSN - 1049-8923
DOI - 10.1002/rnc.4880
Subject(s) - teleoperation , control theory (sociology) , impedance control , nonlinear system , observer (physics) , lyapunov function , synchronizing , object (grammar) , robot , computer science , position (finance) , control engineering , engineering , artificial intelligence , control (management) , telecommunications , physics , finance , quantum mechanics , transmission (telecommunications) , economics
Summary Unmeasurable object deformation and local communication time delays between the slave robots influence the manipulation effect for multirobot multioperator teleoperation. In this article, a distributed control method based on high‐gain nonlinear observer, interactive identification, and impedance control is proposed for this problem. First, we use Hunt‐Crossley contact model and deduce the desired synchronizing object state in cooperative teleoperation. Second, an impedance item expressed by the internal position errors is presented to decrease object position tracking errors. For the unmeasurable object deformation, an interactive identification method is proposed for estimating unknown variables. Third, we consider both varying communication time delays and local time delays in the slave side. Two mirror high‐gain nonlinear observers are designed for estimating other slave robots' real‐time state. Finally, we build the system controllers and prove the stability of the closed‐loop system and the boundless of estimating errors using Lyapunov functions. Comparable simulation results executed by the physical system present that the position and internal force tracking errors of the object decrease in the designated cooperative tasks.

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