Daniel Seita scite author profile

Robotic fabric manipulation has applications in cloth and cable management, senior care, surgery and more. Existing fabric manipulation techniques, however, are designed for specific tasks, making it difficult to generalize across different but related tasks. We address this problem by extending the recently proposed Visual Foresight framework to learn fabric dynamics, which can be efficiently reused to accomplish a variety of different fabric manipulation tasks with a single goalconditioned policy. We introduce VisuoSpatial Foresight (VSF), which extends prior work by learning visual dynamics on domain randomized RGB images and depth maps simultaneously and completely in simulation. We experimentally evaluate VSF on multi-step fabric smoothing and folding tasks both in simulation and on the da Vinci Research Kit (dVRK) surgical robot without any demonstrations at train or test time. Furthermore, we find that leveraging depth significantly improves performance for cloth manipulation tasks, and results suggest that leveraging RGBD data for video prediction and planning yields an 80% improvement in fabric folding success rate over pure RGB data. Supplementary material is available at https://sites.google.com/ view/fabric-vsf/.

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Deep Imitation Learning of Sequential Fabric Smoothing From an Algorithmic Supervisor

Seita¹,

Ganapathi²,

Hoque³

et al. 2020

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Learning to Rearrange Deformable Cables, Fabrics, and Bags with Goal-Conditioned Transporter Networks

et al. 2021

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Efficiently Calibrating Cable-Driven Surgical Robots With RGBD Fiducial Sensing and Recurrent Neural Networks

Hwang

Thananjeyan

Paradis

et al. 2020

IEEE Robot. Autom. Lett.

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LazyDAgger: Reducing Context Switching in Interactive Imitation Learning

Hoque

Balakrishna

Putterman

et al. 2021

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Daniel Seita

VisuoSpatial Foresight for Multi-Step, Multi-Task Fabric Manipulation

Deep Imitation Learning of Sequential Fabric Smoothing From an Algorithmic Supervisor

Learning to Rearrange Deformable Cables, Fabrics, and Bags with Goal-Conditioned Transporter Networks

Efficiently Calibrating Cable-Driven Surgical Robots With RGBD Fiducial Sensing and Recurrent Neural Networks

LazyDAgger: Reducing Context Switching in Interactive Imitation Learning

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