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Learning Manifolds for Sequential Motion Planning

Isabel M. Rayas Fernández, Giovanni Sutanto, Péter Englert, Ragesh K. Ramachandran, Gaurav S. Sukhatme

Year
2020
Citations
4
Access
Open access

Abstract

Motion planning with constraints is an important part of many real-world robotic systems. In this work, we study manifold learning methods to learn such constraints from data. We explore two methods for learning implicit constraint manifolds from data: Variational Autoencoders (VAE), and a new method, Equality Constraint Manifold Neural Network (ECoMaNN). With the aim of incorporating learned constraints into a sampling-based motion planning framework, we evaluate the approaches on their ability to learn representations of constraints from various datasets and on the quality of paths produced during planning.

Keywords

Constraint (computer-aided design)Manifold (fluid mechanics)Motion (physics)Computer scienceMotion planningArtificial intelligenceSampling (signal processing)Artificial neural networkQuality (philosophy)Nonlinear dimensionality reduction

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