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Main Authors: Liang, Jiaqi, Chen, Yue, Yu, Qize, Shen, Yan, Zhang, Haipeng, Dong, Hao, Wu, Ruihai
Format: Preprint
Published: 2026
Subjects:
Robotics
Artificial Intelligence
Online Access:https://arxiv.org/abs/2601.11076
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author Liang, Jiaqi
Chen, Yue
Yu, Qize
Shen, Yan
Zhang, Haipeng
Dong, Hao
Wu, Ruihai
author_facet Liang, Jiaqi
Chen, Yue
Yu, Qize
Shen, Yan
Zhang, Haipeng
Dong, Hao
Wu, Ruihai
contents Furniture assembly is a crucial yet challenging task for robots, requiring precise dual-arm coordination where one arm manipulates parts while the other provides collaborative support and stabilization. To accomplish this task more effectively, robots need to actively adapt support strategies throughout the long-horizon assembly process, while also generalizing across diverse part geometries. We propose A3D, a framework which learns adaptive affordances to identify optimal support and stabilization locations on furniture parts. The method employs dense point-level geometric representations to model part interaction patterns, enabling generalization across varied geometries. To handle evolving assembly states, we introduce an adaptive module that uses interaction feedback to dynamically adjust support strategies during assembly based on previous interactions. We establish a simulation environment featuring 50 diverse parts across 8 furniture types, designed for dual-arm collaboration evaluation. Experiments demonstrate that our framework generalizes effectively to diverse part geometries and furniture categories in both simulation and real-world settings.
format Preprint
id arxiv_https___arxiv_org_abs_2601_11076
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle A3D: Adaptive Affordance Assembly with Dual-Arm Manipulation
Liang, Jiaqi
Chen, Yue
Yu, Qize
Shen, Yan
Zhang, Haipeng
Dong, Hao
Wu, Ruihai
Robotics
Artificial Intelligence
Furniture assembly is a crucial yet challenging task for robots, requiring precise dual-arm coordination where one arm manipulates parts while the other provides collaborative support and stabilization. To accomplish this task more effectively, robots need to actively adapt support strategies throughout the long-horizon assembly process, while also generalizing across diverse part geometries. We propose A3D, a framework which learns adaptive affordances to identify optimal support and stabilization locations on furniture parts. The method employs dense point-level geometric representations to model part interaction patterns, enabling generalization across varied geometries. To handle evolving assembly states, we introduce an adaptive module that uses interaction feedback to dynamically adjust support strategies during assembly based on previous interactions. We establish a simulation environment featuring 50 diverse parts across 8 furniture types, designed for dual-arm collaboration evaluation. Experiments demonstrate that our framework generalizes effectively to diverse part geometries and furniture categories in both simulation and real-world settings.
title A3D: Adaptive Affordance Assembly with Dual-Arm Manipulation
topic Robotics
Artificial Intelligence
url https://arxiv.org/abs/2601.11076

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