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Experimental Demonstration of a General Balancing Controller on an Untethered Planar Inverted Double Pendulum

Federico Allione, Antonios E. Gkikakis, Roy Featherstone

Year
2022
Citations
6

Abstract

This paper demonstrates the practical performance of a new theory of balance control that has been shown in simulation to out-perform earlier balance control theories in the sense of allowing the robot to make larger and faster movements while still maintaining its balance. The case studied here is that of a general planar double inverted pendulum, which resembles a legged robot's behaviour when the polygon of support shrinks to a line. The results show the speed and accuracy of the controller, as well as its robustness to external disturbances and slipping during fast movements.

Keywords

Inverted pendulumControl theory (sociology)Robustness (evolution)PlanarRobotSlippingPolygon (computer graphics)Computer scienceDouble inverted pendulumController (irrigation)

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