Feedback Linearization (FL) allows the best control performance in executing a desired motion task when an accurate dynamic model of a fully actuated robot is available. However, due to residual parametric uncertainties and unmodeled dynamic effects, a complete cancellation of the nonlinear dynamics by feedback is hardly achieved in practice. In this paper, we summarize a novel learning framework aimed at improving online the torque correction necessary for obtaining perfect cancellation with a FL controller, using only joint position measurements. We extend then this framework to the class of underactuated robots controlled by Partial Feedback Linearization (PFL), where we simultaneously learn a feasible trajectory satisfying the boundary conditions on the desired motion while improving the associated tracking performance.
Dettaglio pubblicazione
2020, Proceedings of I-RIM 2020, Pages -
Learning Feedback Linearization Control Without Torque Measurements (04b Atto di convegno in volume)
Capotondi Marco, Turrisi Giulio, Gaz Claudio Roberto, Modugno Valerio, Oriolo Giuseppe, De Luca Alessandro
Gruppo di ricerca: Robotics
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