Multi-Point Impedance Control for Redundant Manipulators

Jazidie, Achmad; Tsuji, Takao; Kaneko, Makoto; Nagamachi, Mitsuo

doi:10.9746/sicetr1965.30.1418

Cited by 3 publications

References 15 publications

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Hierarchical control of end-point impedance and joint impedance for redundant manipulators

Tsuji

Jazidie

Kaneko

1999

IEEE Trans. Syst., Man, Cybern. A

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This paper proposes an impedance control method for redundant manipulators, which can control not only the endpoint impedance using one of the conventional impedance control methods, but the joint impedance which has no effects on the end-point impedance. First, a sufficient condition for the joint impedance controller is derived. Then, the optimal controller for a given desired joint impedance is designed using the least squares method. Finally, computer simulations and experiments using a planar direct-drive robot are performed in order to confirm the validity of the proposed method.

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Hierarchical control of end-point impedance and joint impedance for redundant manipulators

Tsuji

Jazidie

Kaneko

1999

IEEE Trans. Syst., Man, Cybern. A

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Multi-point impedance control for redundant manipulators

Tsuji

Jazidie

Kaneko

1996

IEEE Trans. Syst., Man, Cybern. B

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This paper proposes an impedance control method called the multi-point impedance control (MPIC) for redundant manipulators. The method can not only control end-effector impedance, but also regulate impedances of several points on the links of the manipulator, which are called virtual end-point impedances, utilizing arm redundancy. Two approaches for realizing the MPIC are presented. In the first approach, controlling the end-effector impedance and the virtual end-point impedances are considered as the tasks with the same level, and the joint control law developed in this approach can realize the closest impedances of the multiple points, including the end-effector and the virtual end-points to the desired ones in the least squared sense. On the other hand, in the second approach, controlling the end-effector impedance is considered the most important task, and regulating the impedances of the virtual end-points is considered as a sub-task. Under the second approach, the desired end-effector impedance can be always realized since the joint control torque for the regulation of the virtual end-point impedances is designed in such a way that it has no effect on the end-effector motion of the manipulator. Simulation experiments are performed to confirm the validity and to show the advantages of the proposed method.

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Development of one-DOF robot arm equipped with mechanical impedance adjuster

Morita

Sugano

Proceedings 1995 IEEE/RSJ International Conference on Intelligent Robots and Systems. Human Robot Interaction and Cooperative R

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Multi-Point Impedance Control for Redundant Manipulators

Cited by 3 publications

References 15 publications

Hierarchical control of end-point impedance and joint impedance for redundant manipulators

Hierarchical control of end-point impedance and joint impedance for redundant manipulators

Multi-point impedance control for redundant manipulators

Development of one-DOF robot arm equipped with mechanical impedance adjuster

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