利用神经辐射场对加速桥梁施工中的剪力连接件进行稳健定位

IF 9.6 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Gyumin Lee , Ali Turab Asad , Khurram Shabbir , Sung-Han Sim , Junhwa Lee
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引用次数: 0

摘要

加速桥梁施工(ABC)要求对预制构件进行精确对齐,以防止装配失败。由于点云数据(PCD)的稀疏性,传统方法很难从结构运动生成的点云数据中定位剪力连接件。本文介绍了一种使用神经辐射场生成的 PCD 和三步缩小算法进行剪力连接器定位的稳健方法。PCD 对小型连接器显示出密集的点,使算法能够精确定位其位置。该方法成功识别了模拟预制梁中的全部 72 个剪力连接件,平均误差为 10 毫米,证明了其在评估 ABC 项目可施工性方面的潜力。未来的研究可能会整合基于深度学习的分割技术,以提高复杂几何形状和非标准桥梁设计的效率和适应性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robust localization of shear connectors in accelerated bridge construction with neural radiance field
Accelerated bridge construction (ABC) demands precise alignment of prefabricated members to prevent assembly failure. Conventional methods struggle to localize shear connectors from point cloud data (PCD) generated by structure-from-motion due to its sparsity. This paper introduces a robust method for shear connector localization using PCD generated by a neural radiance field and a three-step narrowing-down algorithm. The PCD exhibits densely populated points for small connectors, allowing the algorithm to pinpoint their locations accurately. The method successfully identified all 72 shear connectors in a mock-up prefabricated girder, with an average error of 10 mm, demonstrating its potential for assessing constructability in ABC projects. Future research may integrate deep learning-based segmentation techniques to enhance efficiency and adaptability in complex geometries and non-standard bridge designs.
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来源期刊
Automation in Construction
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.
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