On the Formulation of Parallel Position/Force Control Schemes for Industrial Manipulators
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Dede, Mehmet İsmet Can
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Abstract
In this paper, three commonly-used position/force control schemes namely Impedance,
Admittance and Hybrid Position/Force control are investigated for use in industrial
manipulators. In order to eliminate the instability problem that may occur in the customary
versions of these schemes for large position errors, a modification is proposed, which is
based on determining the joint-space position errors using inverse kinematic solutions rather
than using the inverse Jacobian matrix. The feasibility of this modification relies on the fact
that almost all of the industrial manipulators have easily obtainable inverse kinematic
solutions. The simulation results showing the performance of the modified control schemes
are also presented as applied on a Puma 560 manipulator.
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Keywords
Industrial manipulators, Impedance control, Admittance control, Hybrid conrol, Position/Force control
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Citation
Dede, M. İ. C., and Özgören, M. K. (2012). On the formulation of parallel position/force control schemes for industrial manipulators. In A. Graeser, and D. Ristic-Durrant (Eds.). Paper presented at the Methods and applications in automation proceedings of the 32nd and 33rd Colloquium of Automation, Leer, Germany (pp. 79-90). Aachen: Shaker Verlag.
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79
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90
