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POCHYLÝ, A. KUBELA, T. SINGULE, V.
Original Title
Force-torque control of industrial robot for industrial applications
Type
conference paper
Language
English
Original Abstract
The paper deals with the force-torque control for industrial robots for various types of applications such as grinding, drilling, automatic assembly or other applications where contact forces and respective moments need to be controlled in real-time. The experimental set-up is based mainly on a KUKA robot (KR3 or KR15/2) and a FTC sensor (by SCHUNK). Main practical results are concerned with automatic grinding of specific parts provided by industrial partners. Another prospective area covered in this paper is also the interaction between the robot and an operator known as Human Robot Interaction or Cooperation drawing on the FTC paradigm. Pilot results were presented using the cascade control architecture where a desired contact force with object surfaces can be controlled allowing the robot to follow object profiles (for grinding applications) or for the programming-by-demonstration concept.
Keywords
robot, force-torque control, human-robot interaction
Authors
POCHYLÝ, A.; KUBELA, T.; SINGULE, V.
RIV year
2010
Released
10. 5. 2010
Publisher
Institute of Thermomechanics, Academy of Sciences of the Czech Republic
Location
Prague, Czech Republic
ISBN
978-80-87012-26-0
Book
Engineering Mechanics 2010 - Book of Extended Abstracts
Edition number
1
Pages from
105
Pages to
106
Pages count
2
BibTex
@inproceedings{BUT35711, author="Aleš {Pochylý} and Tomáš {Kubela} and Vladislav {Singule}", title="Force-torque control of industrial robot for industrial applications", booktitle="Engineering Mechanics 2010 - Book of Extended Abstracts", year="2010", number="1", pages="105--106", publisher="Institute of Thermomechanics, Academy of Sciences of the Czech Republic", address="Prague, Czech Republic", isbn="978-80-87012-26-0" }