Learning Equality Constraints for Motion Planning on Manifolds
Giovanni Sutanto, Isabel M. Rayas Fernández, Peter Englert, Ragesh K. Ramachandran, Gaurav S. Sukhatme
9/24/2020
Keywords: Fundamentals, Science & Engineering, Robotics
Venue: CoRL 2020
Bibtex:
@inproceedings{sutanto2020learning,
booktitle = {Proceedings of the Conference on Robot Learning (CoRL)},
author = {Giovanni Sutanto and Isabel M. Rayas Fernandez and Peter Englert and Ragesh K. Ramachandran and Gaurav S. Sukhatme},
title = {Learning Equality Constraints for Motion Planning on Manifolds},
year = {2020},
url = {http://arxiv.org/abs/2009.11852v1},
entrytype = {inproceedings},
id = {sutanto2020learning}
}
Abstract
Constrained robot motion planning is a widely used technique to solve complex robot tasks. We consider the problem of learning representations of constraints from demonstrations with a deep neural network, which we call Equality Constraint Manifold Neural Network (ECoMaNN). The key idea is to learn a level-set function of the constraint suitable for integration into a constrained sampling-based motion planner. Learning proceeds by aligning subspaces in the network with subspaces of the data. We combine both learned constraints and analytically described constraints into the planner and use a projection-based strategy to find valid points. We evaluate ECoMaNN on its representation capabilities of constraint manifolds, the impact of its individual loss terms, and the motions produced when incorporated into a planner.
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