Learning Equality Constraints for Motion Planning on Manifolds
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.
Cite
Text
Sutanto et al. "Learning Equality Constraints for Motion Planning on Manifolds." Conference on Robot Learning, 2020.Markdown
[Sutanto et al. "Learning Equality Constraints for Motion Planning on Manifolds." Conference on Robot Learning, 2020.](https://mlanthology.org/corl/2020/sutanto2020corl-learning/)BibTeX
@inproceedings{sutanto2020corl-learning,
title = {{Learning Equality Constraints for Motion Planning on Manifolds}},
author = {Sutanto, Giovanni and Fernández, Isabel Rayas and Englert, Peter and Ramachandran, Ragesh Kumar and Sukhatme, Gaurav},
booktitle = {Conference on Robot Learning},
year = {2020},
pages = {2292-2305},
volume = {155},
url = {https://mlanthology.org/corl/2020/sutanto2020corl-learning/}
}