Home /Research /A closed-form solution for real-time ZMP gait generation and feedback stabilization
LOCOMOTION

A closed-form solution for real-time ZMP gait generation and feedback stabilization

Russ Tedrake, Scott Kuindersma, Robin Deits, Kanako Miura

Year
2015
Citations
82

Abstract

Here we present a closed-form solution to the continuous time-varying linear-quadratic regulator problem for zero-moment point (ZMP) tracking. This generalizes previous analytical solutions for gait generation by allowing "soft" tracking (with a quadratic cost) of the desired ZMP, and by providing the feedback gains for the resulting time-varying optimal controller. This enables very fast O(n) computation, with n the number of piecewise polynomial segments in the desired ZMP trajectory. Results are presented using the Atlas humanoid robot where dynamic walking is achieved by recomputing the optimal controller online.

Keywords

Zero moment pointControl theory (sociology)Humanoid robotPiecewiseTrajectoryComputationComputer scienceController (irrigation)GaitQuadratic equation

Related papers

Browse all LOCOMOTION papers