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A parallel low-impedance sensing approach for highly responsive physical human-robot interaction

Gabriel Boucher, Thierry Laliberté, Clément Gosselin

Year
2019
Citations
5

Abstract

This paper presents a novel sensing approach for the physical interaction between a human user and a serial robotic arm. The approach is inspired from the concept of macro-mini robot architecture. The framework is developed for a general multi-degree-of-freedom serial robot and a corresponding impedance control scheme is proposed. In order to illustrate the concept, a five-degree-of-freedom robotic arm was built as well as a six-degree-of-freedom low-impedance sensing device that is used to control the robot. Experimental results are provided.

Keywords

Impedance controlRobotComputer scienceSerial manipulatorDegrees of freedom (physics and chemistry)Electrical impedanceMacroRobot controlRobotic armHuman–robot interaction

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