Sequential Topological Representations for Predictive Models of Deformable Objects

Deformable objects present a formidable challenge for robotic manipulation due to the lack of canonical low-dimensional representations and the difficulty of capturing, predicting, and controlling such objects. We construct compact topological representations to capture the state of highly deformabl...

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Bibliographic Details
Published in:arXiv.org 2021-05
Main Authors: Antonova, Rika, Varava, Anastasiia, Shi, Peiyang, J Frederico Carvalho, Kragic, Danica
Format: Article
Language:English
Subjects:
Deformation
Evolution
Formability
Prediction models
Predictive control
Representations
Three dimensional models
Topology
Online Access:Get full text
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Summary:Deformable objects present a formidable challenge for robotic manipulation due to the lack of canonical low-dimensional representations and the difficulty of capturing, predicting, and controlling such objects. We construct compact topological representations to capture the state of highly deformable objects that are topologically nontrivial. We develop an approach that tracks the evolution of this topological state through time. Under several mild assumptions, we prove that the topology of the scene and its evolution can be recovered from point clouds representing the scene. Our further contribution is a method to learn predictive models that take a sequence of past point cloud observations as input and predict a sequence of topological states, conditioned on target/future control actions. Our experiments with highly deformable objects in simulation show that the proposed multistep predictive models yield more precise results than those obtained from computational topology libraries. These models can leverage patterns inferred across various objects and offer fast multistep predictions suitable for real-time applications.
ISSN:2331-8422