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An Approach for Imitation Learning on Riemannian Manifolds
Type of publication: Journal paper
Citation: Zeestraten_RAL_2017
Publication status: Published
Journal: IEEE Robotics and Automation Letters (RA-L)
Volume: 2
Number: 3
Year: 2017
Month: June
Pages: 1240-1247
URL: https://doi.org/10.1109/LRA.20...
DOI: 10.1109/LRA.2017.2657001
Abstract: In imitation learning, multivariate Gaussians are widely used to encode robot behaviors. Such approaches do not provide the ability to properly represent end-effector orientation, as the distance metric in the space of orientations is not Euclidean. In this work we present an extension of common probabilistic learning from demonstration techniques to Riemannian manifolds. This generalization enables the encoding of joint distributions that include the robot pose. We show that Gaussian conditioning, Gaussian product and nonlinear regression can be achieved with this representation. The proposed approach is illustrated with examples on a 2-dimensional sphere, as well as with an example of regression between two robot end-effector poses, and by extending TP-GMM and GMR to Riemannian manifolds.
Keywords: learning from demonstration, Riemannian manifolds, robot learning
Projects Idiap
DexROV
I-DRESS
Authors Zeestraten, M.
Havoutis, I.
Silverio, J.
Calinon, Sylvain
Caldwell, D. G.
Added by: [UNK]
Total mark: 0
Attachments
  • Zeestraten_RAL_2017.pdf
Notes