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On the Stability of Robot Kinesthetic Guidance in the Presence of Active Constraints

Theodora Kastritsi, Dimitrios Papageorgiou, Zoe Doulgeri

Year
2018
Citations
7

Abstract

The stability of a robot subject to active constraints under the exertion of a human force is analyzed. Artificial potentials that are used to create a barrier on constraint surfaces are revisited and the robot's stability in the presence of active constraints is examined in terms of output passivity and state boundedness. It is shown that under input forces of finite energy the state is bounded and hence the motion is confined within the constraint region. However, the quality of response depends on the type of input and may include undesirable transients for physical human robot interaction (pHRI) applications.

Keywords

Kinesthetic learningConstraint (computer-aided design)RobotControl theory (sociology)Stability (learning theory)Bounded functionComputer sciencePassivityArtificial intelligenceEngineering

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