MimicFunc: Imitating Tool Manipulation from a Single Human Video via Functional Correspondence

Chao Tang; Anxing Xiao; Yuhong Deng; Tianrun Hu; Wenlong Dong; Hanbo Zhang; David Hsu; Hong Zhang

MimicFunc: Imitating Tool Manipulation from a Single Human Video via Functional Correspondence

Chao Tang, Anxing Xiao, Yuhong Deng, Tianrun Hu, Wenlong Dong, Hanbo Zhang, David Hsu, Hong Zhang

Published: 08 Aug 2025, Last Modified: 16 Sept 2025CoRL 2025 PosterEveryoneRevisionsBibTeXCC BY 4.0

Keywords: Tool Manipulation, Imitation from Human Video

Abstract: Imitating tool manipulation from human videos offers an intuitive approach to teaching robots, while also providing a promising and scalable alternative to labor-intensive teleoperation data collection for visuomotor policy learning. While humans can mimic tool manipulation behavior by observing others perform a task just once and effortlessly transfer the skill to diverse tools for functionally equivalent tasks, current robots struggle to achieve this level of generalization. A key challenge lies in establishing function-level correspondences, considering the significant geometric variations among functionally similar tools, referred to as intra-function variations. To address this challenge, we propose MimicFunc, a framework that establishes functional correspondences with function frame, a function-centric local coordinate frame constructed with 3D functional keypoints, for imitating tool manipulation skills. Experiments demonstrate that MimicFunc effectively enables the robot to generalize the skill from a single RGB-D human video to manipulating novel tools for functionally equivalent tasks. Furthermore, leveraging MimicFunc's one-shot generalization capability, the generated rollouts can be used to train visuomotor policies without requiring labor-intensive teleoperation data collection for novel objects.

Supplementary Material: zip

Spotlight: mp4

Submission Number: 565

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