Home /Research /Hybrid zero dynamics based multiple shooting optimization with applications to robotic walking
LOCOMOTION

Hybrid zero dynamics based multiple shooting optimization with applications to robotic walking

Ayonga Hereid, Christian Hubicki, Eric Cousineau, Jonathan Hurst, Aaron D. Ames

Year
2015
Citations
25

Abstract

Hybrid zero dynamics (HZD) has emerged as a popular framework for the stable control of bipedal robotic gaits, but typically designing a gait's virtual constraints is a slow and undependable optimization process. To expedite and boost the reliability of HZD gait generation, we borrow methods from trajectory optimization to formulate a smoother and more linear optimization problem. We present a multiple-shooting formulation for the optimization of virtual constraints, combining the stability-friendly properties of HZD with an optimization-conducive problem formulation. To showcase the implications of this recipe for improving gait generation, we use the same process to generate periodic planar walking gaits on two different robot models, and in one case, demonstrate stable walking on the hardware prototype, DURUS-R.

Keywords

Computer scienceZero (linguistics)Dynamics (music)Control theory (sociology)SimulationArtificial intelligencePhysicsControl (management)Acoustics

Related papers

Browse all LOCOMOTION papers