Automated Evaluation of Indoor Dimensional Tolerance Compliance Using the TLS Data and BIM

Tang, Dongdong; Li, Shenghan; Wang, Qian; Li, Silin; Cai, Ruying; Tan, Yi

Automated Evaluation of Indoor Dimensional Tolerance Compliance Using the TLS Data and BIM

Dongdong Tang, Shenghan Li, Qian Wang, Silin Li, Ruying Cai and Yi Tan ()
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Dongdong Tang: Sino-Australia Joint Research Center in BIM and Smart Construction, Shenzhen University
Shenghan Li: Sino-Australia Joint Research Center in BIM and Smart Construction, Shenzhen University
Qian Wang: National University of Singapore
Silin Li: Sino-Australia Joint Research Center in BIM and Smart Construction, Shenzhen University
Ruying Cai: Sino-Australia Joint Research Center in BIM and Smart Construction, Shenzhen University
Yi Tan: Sino-Australia Joint Research Center in BIM and Smart Construction, Shenzhen University

A chapter in Proceedings of the 25th International Symposium on Advancement of Construction Management and Real Estate, 2021, pp 625-641 from Springer

Abstract: Abstract As commercial residential building prices are getting increasingly expensive, whether the dimensions of building components to be delivered conforms to the design codes is significantly important to the owner. However, the current dimension assessment is still manually conducted with field measurement, which is error-prone and time-consuming. To improve the assessment efficiency and accuracy, this study presents an automated geometric quality assessment technique which measures the dimensions of indoor components by means of the terrestrial laser scanning (TLS). The point cloud data obtained by the TLS is reversely reconstructed into a three-dimensional model, representing as-built model of the building. Building information model (BIM) stores rich geometric information, which represents as-designed model of the building. Then, “Scan-vs-BIM” systems, which are based on comparing the as-built point cloud model with as-designed BIM models, can effectively detect the dimension discrepancy of indoor components and provide decision-making basis for the local detection. Experiments using the commercial residential building are conducted and the result that the presented method can effectively and accurately evaluate the building dimensional tolerance compliance.

Keywords: BIM; Commercial residential building; Indoor geometric quality assessment; Point cloud; Tolerance compliance; Terrestrial laser scanning (search for similar items in EconPapers)
Date: 2021
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Persistent link: https://EconPapers.repec.org/RePEc:spr:sprchp:978-981-16-3587-8_41

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DOI: 10.1007/978-981-16-3587-8_41

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