Controlled Reduction With Unactuated Cyclic Variables: Application to 3D Bipedal Walking With Passive Yaw Rotation

Author

Gregg, Robert D. ; Righetti, Ludovic

Author_Institution

Dept. of Mech. Eng., Univ. of Texas at Dallas, Richardson, TX, USA

Volume

58

Issue

10

fYear

2013

fDate

Oct. 2013

Firstpage

2679

Lastpage

2685

Abstract

This technical note shows that viscous damping can shape momentum conservation laws in a manner that stabilizes yaw rotation and enables steering for underactuated 3D walking. We first show that unactuated cyclic variables can be controlled by passively shaped conservation laws given a stabilizing controller in the actuated coordinates. We then exploit this result to realize controlled geometric reduction with multiple unactuated cyclic variables. We apply this underactuated control strategy to a five-link 3D biped to produce exponentially stable straight-ahead walking and steering in the presence of passive yawing.

Keywords

asymptotic stability; controllers; damping; geometry; legged locomotion; momentum; path planning; steering systems; 3D bipedal walking; actuated coordinates; controlled geometric reduction; controlled reduction; exponentially stable straight-ahead walking; five-link 3D biped; passive yaw rotation; passively shaped conservation laws; shape momentum conservation laws; stabilizing controller; unactuated cyclic variables; underactuated 3D walking steering; viscous damping; Control theory; Damping; Foot; Joints; Legged locomotion; Shape; Vectors; Asymptotic stability; bipedal robots; inverse dynamics; nonlinear control; underactuation;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2013.2256011

Filename

6490344