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Hauptverfasser: Wang, Haowen, Zhao, Zhen, Jin, Zhao, Che, Zhengping, Qiao, Liang, Huang, Yakun, Fan, Zhipeng, Qiao, Xiuquan, Tang, Jian
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2401.09133
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author Wang, Haowen
Zhao, Zhen
Jin, Zhao
Che, Zhengping
Qiao, Liang
Huang, Yakun
Fan, Zhipeng
Qiao, Xiuquan
Tang, Jian
author_facet Wang, Haowen
Zhao, Zhen
Jin, Zhao
Che, Zhengping
Qiao, Liang
Huang, Yakun
Fan, Zhipeng
Qiao, Xiuquan
Tang, Jian
contents Reconstructing real-world objects and estimating their movable joint structures are pivotal technologies within the field of robotics. Previous research has predominantly focused on supervised approaches, relying on extensively annotated datasets to model articulated objects within limited categories. However, this approach falls short of effectively addressing the diversity present in the real world. To tackle this issue, we propose a self-supervised interaction perception method, referred to as SM$^3$, which leverages multi-view RGB images captured before and after interaction to model articulated objects, identify the movable parts, and infer the parameters of their rotating joints. By constructing 3D geometries and textures from the captured 2D images, SM$^3$ achieves integrated optimization of movable part and joint parameters during the reconstruction process, obviating the need for annotations. Furthermore, we introduce the MMArt dataset, an extension of PartNet-Mobility, encompassing multi-view and multi-modal data of articulated objects spanning diverse categories. Evaluations demonstrate that SM$^3$ surpasses existing benchmarks across various categories and objects, while its adaptability in real-world scenarios has been thoroughly validated.
format Preprint
id arxiv_https___arxiv_org_abs_2401_09133
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle SM$^3$: Self-Supervised Multi-task Modeling with Multi-view 2D Images for Articulated Objects
Wang, Haowen
Zhao, Zhen
Jin, Zhao
Che, Zhengping
Qiao, Liang
Huang, Yakun
Fan, Zhipeng
Qiao, Xiuquan
Tang, Jian
Computer Vision and Pattern Recognition
Robotics
Reconstructing real-world objects and estimating their movable joint structures are pivotal technologies within the field of robotics. Previous research has predominantly focused on supervised approaches, relying on extensively annotated datasets to model articulated objects within limited categories. However, this approach falls short of effectively addressing the diversity present in the real world. To tackle this issue, we propose a self-supervised interaction perception method, referred to as SM$^3$, which leverages multi-view RGB images captured before and after interaction to model articulated objects, identify the movable parts, and infer the parameters of their rotating joints. By constructing 3D geometries and textures from the captured 2D images, SM$^3$ achieves integrated optimization of movable part and joint parameters during the reconstruction process, obviating the need for annotations. Furthermore, we introduce the MMArt dataset, an extension of PartNet-Mobility, encompassing multi-view and multi-modal data of articulated objects spanning diverse categories. Evaluations demonstrate that SM$^3$ surpasses existing benchmarks across various categories and objects, while its adaptability in real-world scenarios has been thoroughly validated.
title SM$^3$: Self-Supervised Multi-task Modeling with Multi-view 2D Images for Articulated Objects
topic Computer Vision and Pattern Recognition
Robotics
url https://arxiv.org/abs/2401.09133