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Delayed Bilateral Teleoperation of the Speed and Turn Angle of a Bipedal Robot

Viviana Moya, Emanuel Slawiñski, Vicente Mut

Year
2020
Citations
5

Abstract

SUMMARY This paper proposes a shared control scheme which aims to achieve a stable control of the speed and turn of a bipedal robot during a delayed bilateral teleoperation. The strategy allows to get a delay-dependent damping value that must be injected to assure a bounded response of the hybrid system, while simultaneously, the human operator receives a force feedback that help him to decrease the synchronism error. Furthermore, a test where a human operator handles the walking of a simulated bipedal robot, to follow a curve path in front of varying time delay, is performed and analyzed.

Keywords

TeleoperationControl theory (sociology)SynchronismRobotOperator (biology)Computer scienceSimulationStability (learning theory)Control (management)Control engineering

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