Millimeter-level position control in modular construction using laser scanning and tolerance chain

IF 9.6 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Automation in Construction Pub Date : 2025-06-19 DOI:10.1016/j.autcon.2025.106335

Jiayi Xu, Wei Pan

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引用次数: 0

Abstract

Compared to conventional construction, modular construction requires stricter tolerances due to the assembly of prefabricated bulky modules. Therefore, effective positional tolerance control (PTC) is critical to ensure quality modular buildings. However, the status quo using conventional tools like tapelines is time-consuming and risks accuracy. This paper presents an accurate and efficient PTC method using laser scanning and tolerance chain. The method integrates a corner-aware module detection algorithm for extracting critical geometry features from point clouds and a tolerance chain of module assembly for disclosing tolerance accumulations from the module, floor, and building levels. Laboratory experiments using scaled module specimens based on a real-life modular building (1:20) are conducted for the validation of PTC. Results show a high accuracy of less than ±3 mm and timely tolerance feedback within 8 min. The paper contributes a method for quality assurance of module assembly by facilitating efficient and millimeter-level tolerance control.

查看原文本刊更多论文

采用激光扫描和公差链的模块化结构中的毫米级位置控制

与传统结构相比，由于预制的大体积模块的组装，模块化结构要求更严格的公差。因此，有效的位置公差控制（PTC）是保证模块化建筑质量的关键。然而，目前使用传统工具（如胶带）既耗时又有准确性风险。提出了一种基于激光扫描和公差链的精确、高效的PTC检测方法。该方法集成了一个拐角感知模块检测算法，用于从点云中提取关键几何特征，以及一个模块组装的公差链，用于披露模块、楼层和建筑水平的公差累积。采用基于现实模块化建筑（1:20）的缩放模块标本进行实验室实验，验证PTC的有效性。结果表明，该方法精度可达±3mm以内，误差反馈可在8min内及时完成。该方法可实现高精度、毫米级的误差控制，为模块装配质量保证提供了一种方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Automation in Construction 工程技术-工程：土木

CiteScore

19.20

自引率

16.50%

发文量

563

审稿时长

8.5 months

期刊介绍： Automation in Construction is an international journal that focuses on publishing original research papers related to the use of Information Technologies in various aspects of the construction industry. The journal covers topics such as design, engineering, construction technologies, and the maintenance and management of constructed facilities. The scope of Automation in Construction is extensive and covers all stages of the construction life cycle. This includes initial planning and design, construction of the facility, operation and maintenance, as well as the eventual dismantling and recycling of buildings and engineering structures.