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Controllability and accessibility of vibrations in multiple planes on link-elastic robot arms

Freia Irina John, Jörn Malzahn, Torsten Bertram

Year
2017
Citations
4

Abstract

Research on link-elasticities offers the perspective to devise lightweight robots with intrinsic safety benefits for physical human-robot interaction and fast motions with reduced energy consumption. Moreover, their force/torque sensing capabilities mimic the functionalities of animalistic whiskers, putting the robot in a position to react gently to its environment. While many works consider single elastic links or planar settings, the present work addresses the controllability problem for link-elastic robots with multiple vibration planes. The paper introduces the reader to the modal controllability and accessibility problem emerging in such systems, and proposes a novel geometric controllability index with reduced complexity. The proposed index is compared and analysed with respect to existing indexes from literature in preparation for adaptive vibration control schemes.

Keywords

ControllabilityRobotLink (geometry)Computer scienceVibrationTorquePlanarControl theory (sociology)Energy consumptionEngineering

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