Cerebellar augmented joint control for a humanoid robot
| Contribuinte(s) |
Nardi, Daniele Riedmiller, Martin Claude, Sammut Santos-Victor, José |
|---|---|
| Data(s) |
2005
|
| Resumo |
The joints of a humanoid robot experience disturbances of markedly different magnitudes during the course of a walking gait. Consequently, simple feedback control techniques poorly track desired joint trajectories. This paper explores the addition of a control system inspired by the architecture of the cerebellum to improve system response. This system learns to compensate the changes in load that occur during a cycle of motion. The joint compensation scheme, called Trajectory Error Learning, augments the existing feedback control loop on a humanoid robot. The results from tests on the GuRoo platform show an improvement in system response for the system when augmented with the cerebellar compensator. |
| Formato |
application/pdf |
| Identificador | |
| Publicador |
Springer Berlin / Heidelberg |
| Relação |
http://eprints.qut.edu.au/37284/1/c37284.pdf DOI:10.1007/978-3-540-32256-6_28 Kee, Damien & Wyeth, Gordon (2005) Cerebellar augmented joint control for a humanoid robot. In Nardi, Daniele, Riedmiller, Martin, Claude, Sammut, & Santos-Victor, José (Eds.) RoboCup 2004 : Robot Soccer World Cup VIII. Springer Berlin / Heidelberg, pp. 347-357. |
| Direitos |
Copyright 2005 Springer-Verlag Berlin Heidelberg |
| Fonte |
Faculty of Built Environment and Engineering; School of Engineering Systems |
| Palavras-Chave | #080101 Adaptive Agents and Intelligent Robotics |
| Tipo |
Book Chapter |
