Title :
Sensor and control design of a dynamically stable biped robot
Author :
Löffler, K. ; Gienger, M. ; Pfeiffer, F.
Author_Institution :
Inst. for Appl. Mech., Technische Univ. of Munich, Garching, Germany
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 3D-orientation sensor and the 6-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 2.0 km/h have been achieved in experiments.
Keywords :
control system synthesis; force sensors; gait analysis; legged locomotion; position control; stability; torque control; velocity; 2.0 km/h; 3D-orientation sensor; adaptive trajectories; attitude sensors; biped robot; control design; force sensors; force-torque sensor; gait pattern; high walking velocities; joint sensors; path planning; position control; sensor design; trajectory control; Capacitive sensors; Control design; Foot; Force measurement; Force sensors; Legged locomotion; Low pass filters; Robot sensing systems; Robotic assembly; Sensor systems;
Conference_Titel :
Robotics and Automation, 2003. Proceedings. ICRA '03. IEEE International Conference on
Print_ISBN :
0-7803-7736-2
DOI :
10.1109/ROBOT.2003.1241641
