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Motion planning under gravity for underactuated three-link robots

Alessandro De Luca, Giuseppe Oriolo

Year
2002
Citations
14

Abstract

Presents a method for planning motions of three-link planar robots with a passive rotational third joint in the presence of gravity. These underactuated mechanisms can be fully linearized and input-output decoupled by means of a nonlinear dynamic state feedback, provided that a physical singularity is avoided. The linearizing output is the position of the center of percussion of the third link. Based on this, one can plan motions joining any initial and desired final state in finite time; in particular, transfers between inverted equilibria and swing-up maneuvers are easily obtained. Simulation results are reported for a 3R robot.

Keywords

UnderactuationControl theory (sociology)Link (geometry)RobotPosition (finance)Center of gravityNonlinear systemSwingComputer sciencePlanar

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