A general control architecture for dynamic bipedal walking

Author

Chew, Chee-Meng ; Pratt, Gill A.

Author_Institution

Leg Lab., MIT, Cambridge, MA, USA

Volume

4

fYear

2000

fDate

2000

Firstpage

3989

Abstract

We propose a general but simple bipedal walking control architecture that incorporates intuitive control and learning algorithms. The learning algorithm is mainly used to generate the key parameters for the swing leg. The intuitive control is used to maintain the height and body posture. Based on the proposed architecture, a control algorithm is constructed and applied to a planar biped and a 3D biped. By applying an appropriate local speed control mechanism, we demonstrate that the bipeds can successfully achieve walking of 100 seconds within a reasonable number of trials. No dynamic models or nominal joint trajectory data are required for the implementations

Keywords

learning (artificial intelligence); learning systems; legged locomotion; robot dynamics; spatial variables control; velocity control; 3D biped; body posture; dynamic bipedal walking; general control architecture; intuitive control algorithms; learning algorithms; local speed control mechanism; planar biped; swing leg; Algorithm design and analysis; Biomechanics; Humans; Laboratories; Leg; Legged locomotion; Partitioning algorithms; Taxonomy; Torso; Velocity control;

fLanguage

English

Publisher

ieee

Conference_Titel

Robotics and Automation, 2000. Proceedings. ICRA '00. IEEE International Conference on

Conference_Location

San Francisco, CA

ISSN

1050-4729

Print_ISBN

0-7803-5886-4

Type

conf

DOI

10.1109/ROBOT.2000.845353

Filename

845353