LabBuilder: Protocol-Grounded 3D Layout Generation for Interactable and Safe Laboratory
Abstract
Automated laboratories hold the promise of accelerating scientific discovery, yet their deployment is bottlenecked by the difficulty of designing safe and executable environments. While simulator-based design offers scalability, existing 3D scene generation methods are primarily tailored for household settings, optimizing for visual plausibility while neglecting the protocol grounding and layout-level safety constraints essential for scientific experimentation. We present LabBuilder, an end-to-end system that generates and verifies 3D laboratory layouts from concise textual specifications. It operates through three tightly coupled components: LabForge first curates a meta-dataset of annotated assets and chemical knowledge, translating natural language specifications into structured protocols; building on these protocols, LabGen synthesizes laboratory layouts via an iterative, constraint-aware optimization strategy; finally, LabTouchstone evaluates the resulting layouts as a unified benchmark. Extensive experiments demonstrate that LabBuilder significantly outperforms existing state-of-the-art methods, producing laboratory environments that are realistic and valid under modeled geometric, chemical-safety, and navigation constraints.
Cite
@article{arxiv.2605.02288,
title = {LabBuilder: Protocol-Grounded 3D Layout Generation for Interactable and Safe Laboratory},
author = {Jianbao Cao and Zhangrui Zhao and Bohan Feng and Zixuan Hu and Rui Li and Haiyuan Wan and Chenxi Li and Jingyuan Li and Wenzhe Cai and Lei Bai and Wanli Ouyang and Lingyu Duan and Di Huang and Minting Pan and Sha Zhang and Xinzhu Ma and Shixiang Tang and Dongzhan Zhou},
journal= {arXiv preprint arXiv:2605.02288},
year = {2026}
}
Comments
Accepted to ICML 2026