This paper presents the actuation system of the robotic leg ScarlETH. It was developed specifically for a quadrupedal robot and is designed to achieve fast position control as well as accurate joint torque control. It introduces strong passive dynamics to create an efficient running behavior. High spring compliance with low damping in combination with a cascaded, motor velocity based, control structure was successfully tested in simulation and experiments. Final tests with the entire leg demonstrate that the system can perform a hopping motion providing only positive actuator power.
Type
conference paper
Author(s)
Hutter, M.
Remy, C. D.
Hoepflinger, M. A.
Siegwart, R.
Date Issued
2011
Published in
Proc. of the International Conference on Climbing and Walking Robots (CLAWAR)
Editorial or Peer reviewed
REVIEWED
Written at
OTHER
EPFL units
| Event name | Event place | Event date |
Paris, France | September 7, 2011 | |
Available on Infoscience
March 22, 2012
Use this identifier to reference this record