top of page

One Fling to Goal: Environment-aware Dynamics for Goal-conditioned Fabric Flinging

Speaker

Hang Xu, TransGP

Co-author

Linhan Yang, Lei Yang, Haoran Sun, Zeqing Zhang, Haibin He, Wang Fang, Song Chaoyang, Jia Pan

Abstract

Fabric manipulation dynamically is commonly seen in manufacturing and domestic settings. While dynamically manipulating a fabric piece to reach a target state is highly efficient, this task presents considerable challenges due to the varying properties of different fabrics, complex dynamics when interacting with environments, and meeting required goal conditions. To address these challenges, we present One Fling to Goal, an algorithm capable of handling fabric pieces with diverse shapes and physical properties across various scenarios. Our method learns a graph-based dynamics model equipped with environmental awareness. With this dynamics model, we devise a real-time controller to enable high-speed fabric manipulation in one attempt, requiring less than 3 seconds to finish the goal-conditioned task. We experimentally validate our method on a goal-conditioned manipulation task in five diverse scenarios. Our method significantly improves this goal-conditioned task, achieving an average error of 13.2mm in complex scenarios. Our method can be seamlessly transferred to real-world robotic systems and generalized to unseen scenarios in a zero-shot manner.

Speaker Bio

Dr. Hang Xu serves as a research officer at the Centre for Transformative Garment Production (TransGP) and holds an honorary postdoctoral fellowship at HKU. She received her Ph.D. from the School of Computer Science and Engineering at Nanyang Technological University (NTU) in Singapore, in 2023. Dr. Xu's research interests lie at the intersection of robotic manipulation and machine learning, with a particular focus on reinforcement learning and imitation learning.

bottom of page