Bidirectional interaction between BIM and construction processes using a multisource geospatial data enabled point cloud model

Jia, Shoujun; Chun, Liu; Guan, Xiaohong; Wu, Hangbin; Zeng, Doudou; Guo, Jing

doi:10.1016/j.autcon.2021.104096

Cited by 22 publications

(19 citation statements)

References 32 publications

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“…Espera-se que esses procedimentos melhorem significativamente o custo, a precisão, o tempo e os recursos necessários para elaborar um modelo de construção em comparação com a prática tradicional. A modelagem de nuvem de pontos tem uma vantagem significativa devido às suas observações precisas, informações e processamento automático, como também descrito por (Jia et al, 2022).…”

Section: Resultsunclassified

Reconstrução de um projeto comercial com a utilização da tecnologia scanner para BIM

2023

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A modelagem tem como objetivo tornar os ambientes construídos mais fáceis de entender, definir e quantificar materiais, visualizar e simular espaços físicos. Atualmente, os modelos de informação de construção (BIM) têm sido amplamente utilizados na fase de criação de novas construções, porém o emprego do BIM torna-se um processo desafiador quando precisa ser aplicado em edifícios que foram construídos antes da existência da tecnologia. E hoje, a engenharia e construção necessita de modelos de informações mais eficientes, para a reconstrução de projetos em 3D de prédios antigos e do patrimônio arquitetônico das grandes cidades, para facilitar a tomada de decisões em reformas e novas adequações. O processo tradicional para criar ou atualizar o modelamento 3D de uma edificação construída antes do BIM é um procedimento demorado e trabalhoso. A tecnologia de escaneamento a laser a partir de nuvens de pontos com a integração de um sistema de posicionamento global, para refinamento e ajuste dos ambientes externos e internos da edificação ajudam a reduzir erros. Este artigo propõe um procedimento capaz de integrar imagens e informações precisas de um scanner móvel LiDAR por nuvens de pontos, um sistema de posicionamento, e finalmente, um modelo BIM de reconstrução. Os resultados mostraram que os procedimentos melhoraram a qualidade da reconstrução em termos de integridade precisão e rapidez no modelamento.

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Section: Resultsunclassified

Reconstrução de um projeto comercial com a utilização da tecnologia scanner para BIM

2023

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“…However, the construction site environment is complex, and the target points to be measured are distributed in regular or irregular surface patterns, which makes it difficult for traditional measurement methods to achieve complete data acquisition on the surface of the building structure [4,5]. Three-dimensional (3D) laser scanning allows panoramic, high precision, and fast acquisition of object surface information and is widely used in various applications of civil engineering, such as automated modeling, construction progress tracking, construction safety management, and automated construction [6][7][8][9][10][11][12][13][14][15]. In the field of project quality inspection, some scholars [16,17] have used laser scanning techniques for dimensional quality inspection to compare information about the size [18], shape [19], and location [20] of construction project infrastructure with design models to identify potential quality problems.…”

Section: Introductionmentioning

confidence: 99%

Geometric Accuracy Evaluation Method for Subway Stations Based on 3D Laser Scanning

et al. 2022

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The rapid development of three-dimensional (3D) laser scanning technology has provided a new technical means for the geometric accuracy evaluation of subway stations. With high precision and high efficiency, laser scanning technology can present the construction site condition in a panoramic way, which is essential for achieving high precision and all-round geometric accuracy evaluation. However, when the survey coordinate system of the design building information modeling (BIM) predefined in the design stage is not applied during the laser scanning data acquisition or the BIM loses the survey coordinate system during the interaction, the objects will have different coordinate positions in the point cloud and BIM, which will limit the accuracy comparison between the two data sources. Meanwhile, the existing methods mainly focus on the above overground buildings, and the accuracy evaluation of underground structures mainly focuses on the overall deformation monitoring. So far, the existing methods do not constitute a hierarchical index system to assess the geometric accuracy of various objects in the subway station. This study proposes a method to evaluate the geometric accuracy of subway stations based on laser scanning technology. A coarse-to-fine coordinate registration from point cloud to the design BIM is used to unify coordinates in different reference systems; and geometric accuracy evaluation of different structures in subway stations is achieved by developing geometric accuracy evaluation indexes and technical systems. The method is applied to the geometric accuracy monitoring of the Hongqi Road subway station, and the experimental results verify the reliability of the method.

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“…Despite recent high-tech field data acquisition systems that enable efficient access to building data (Park et al. , 2021), their integration into the BIM process to enable information flow throughout the construction phases is complicated (Jia et al. , 2022; Schiavi et al.…”

Section: Introductionmentioning

confidence: 99%

“…Despite continued global standardisation efforts to assist BIM implementation, existing standards have some shortcomings in delivering their advantages, and BIM implementation suffers as a result of their inefficient application (Aram and Eastman, 2013;Patacas et al, 2015), poor interoperability (Marzouk and Othman, 2020;Meng et al, 2020;Stoyanova, 2020) with other enterprise systems like Geographic Information Systems (GIS), enterprise resource planning (ERP) and product lifecycle management (PLM) (Aram and Eastman, 2013;Marzouk and Othman, 2020;Stoyanova, 2020); insufficient compatibility of BIM and consistency with the needs, values and competencies of the potential adopter (Shirowzhan et al, 2020;Son et al, 2015); unreliable data exchange (McGraw-Hill Construction, 2012); and data ownership issues (Ghaffarianhoseini et al, 2017). Despite recent high-tech field data acquisition systems that enable efficient access to building data (Park et al, 2021), their integration into the BIM process to enable information flow throughout the construction phases is complicated (Jia et al, 2022;Schiavi et al, 2022). BIM necessitates to be enhanced to allow consistent handling of data and to improve system integration.…”

Section: Introductionmentioning

confidence: 99%

Productization and product structure enabling BIM implementation in construction

Mansoori

Härkönen

Haapasalo

2022

ECAM

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PurposeThis study aims to facilitate consistency of information in building information modelling (BIM) and address the current BIM gaps through the perspectives of the productization concept and product structure (PS).Design/methodology/approachThe study follows a conceptual research approach in conjunction with a single case study. First, the previous studies on BIM implementation, productization and PS are reviewed. Further, a case study is used to analyse the current state of productization in the construction sector and develop a functional PS for construction.FindingsA Part-Phase-Elements Matrix is proposed as a construction-specific PS to facilitate consistency in information and to enhance BIM. The proposed matrix provides new avenues to facilitate consistent information exchange through the interconnection between conceptual PS and standard building objects library, and encourage collaborative communication between stakeholders.Originality/valueThis study explores the core of the productization concept and PS as means to facilitate consistency of information and thus address the current gaps in BIM. This as building projects progressively move towards systematic modular and prefabricated construction where the flow of reliable information about product and construction offerings becomes increasingly important.

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Bidirectional interaction between BIM and construction processes using a multisource geospatial data enabled point cloud model

Cited by 22 publications

References 32 publications

Reconstrução de um projeto comercial com a utilização da tecnologia scanner para BIM

Reconstrução de um projeto comercial com a utilização da tecnologia scanner para BIM

Geometric Accuracy Evaluation Method for Subway Stations Based on 3D Laser Scanning

Productization and product structure enabling BIM implementation in construction

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