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Get sourcecodesCalinon, S. and Billard, A. (2009). Statistical Learning by Imitation of Competing Constraints in Joint Space
and Task Space. RSJ Advanced Robotics, 23, 2059-2076.
We present a probabilistic architecture for solving generically the problem of extracting the task constraints through a Programming by
Demonstration (PbD) framework and for generalizing the acquired knowledge to various situations. In previous work, we proposed an approach
based on Gaussian Mixture Regression (GMR) to find a controller for the robot reproducing the statistical characteristics of a movement in
joint space and in task space through Lagrange optimization. In this paper, we develop an alternative procedure to handle simultaneously
constraints in joint space and in task space by combining directly the probabilistic representation of the task constraints with a solution
to Jacobian-based inverse kinematics. The method is validated in manipulation tasks with two 5 DOFs Katana robotic arms displacing a set of
objects.
@article{Calinon09AR,
author="S. Calinon and A. Billard",
title="Statistical Learning by Imitation of Competing Constraints in Joint Space and Task Space",
journal="Advanced Robotics",
year="2009",
publisher="The Robotics Society of Japan",
address="Tokyo, Japan",
volume="23",
number="",
pages="2059--2076",
}
author="S. Calinon and A. Billard",
title="Statistical Learning by Imitation of Competing Constraints in Joint Space and Task Space",
journal="Advanced Robotics",
year="2009",
publisher="The Robotics Society of Japan",
address="Tokyo, Japan",
volume="23",
number="",
pages="2059--2076",
}
Incremental learning of a motion with two Katana robotic arms
from Neuronics.
Two demonstrations are provided to show to the
robots how to pour some liquid from a bottle into a glass. Then,
the user moves manually one of the robot while the other robot
follows as best as possible the learned motion in a flexible
manner.
Video credit: Florent D'halluin.
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