Sensors and control concept of a biped robot

Author

Löffler, Klaus ; Gienger, Michael ; Pfeiffer, Friedrich ; Ulbrich, Heinz

Author_Institution

Inst. for Appl. Mech., Tech. Univ. of Munich, Garching, Germany

Volume

51

Issue

5

fYear

2004

Firstpage

972

Lastpage

980

Abstract

The biped robot "Johnnie" is designed to achieve a dynamically stable gait pattern, allowing for high walking velocities. Very accurate and fast sensors were developed for the machine. In particular, the design of the three-dimensional-orientation sensor and the six-axes force-torque sensor are presented. The control scheme is based on the information from these sensors to deal with unstructured terrain and disturbances. Two different implementations are investigated: a computed torque approach and a trajectory control with adaptive trajectories. Walking speeds of 2.4 km/h have been achieved in experiments.

Keywords

cascade control; legged locomotion; microcontrollers; motion control; path planning; position control; sensors; torque control; 2.4 km/h; adaptive trajectories; biped robot; cascade control; computed torque approach; legged locomotion; microcontrollers; mobile robot dynamics; motion control; motion planning; multisensor systems; six-axes force-torque sensor; three-dimensional-orientation sensor; torque control; trajectory control; Force sensors; Humans; Legged locomotion; Microcontrollers; Motion control; Robot sensing systems; Robotic assembly; Robotics and automation; Sensor systems; Torque control; Cascade control; legged locomotion; microcontrollers; mobile robot dynamics; motion control; motion planning; multisensor systems; torque control;

fLanguage

English

Journal_Title

Industrial Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0278-0046

Type

jour

DOI

10.1109/TIE.2004.834948

Filename

1339468