Trabajo presentado a la 27th AAAI Conference celebrada del 14 al 18 de julio de 2013 en Washington (USA). ; Research in learning from demonstration has focused on transferring movements from humans to robots. However, a need is arising for robots that do not just replicate the task on their own, but that also interact with humans in a safe and natural way to accomplish tasks cooperatively. Robots with variable impedance capabilities opens the door to new challenging applications, where the learning algorithms must be extended by encapsulating force and vision information. In this paper we propose a framework to transfer impedance-based behaviors to a torque-controlled robot by kinesthetic teaching. The proposed model encodes the exam- ples as a task-parameterized statistical dynamical system, where the robot impedance is shaped by estimating virtual stiffness matrices from the set of demonstrations. A collaborative assembly task is used as testbed. The results show that the model can be used to modify the robot impedance along task execution to facilitate the collaboration, by triggering stiff and compliant behaviors in an on-line manner to adapt to the user's actions. ; This work was partially supported by the STIFF-FLOP European project (FP7-ICT-287728), IntellAct European project (FP7-269959) and the Spanish project PAU+ (DPI2011-27510). L. Rozo was supported by the CSIC under a JAE-PREDOC scholarship. ; Peer Reviewed
Learning collaborative impedance-based robot behaviors
2013-01-01
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
DDC: | 629 |
Learning physical collaborative robot behaviors from human demonstrations
BASE | 2016
|Learning physical collaborative robot behaviors from human demonstrations
BASE | 2016
|Enabling Collaborative Behaviors among CubeSats
British Library Conference Proceedings | 2011
|