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A platform for research: civil engineering, architecture and urbanism
Adaptive BIM/CIM for Digital Twining of Automated Shotcreting Process
https://orcid.org/http://orcid.org/0000-0001-5775-9438
The development of digital twins (DT) for construction processes requires adequate replication of real-world spaces. Therefore, the use of Building/Civil-Construction Information Modeling (BIM/CIM) for the creation of a digital representation of the physical process and asset plays a vital role. The construction process considered for this research study is shotcrete application and surface finishing during the construction and finishing phases. The research presents the role of adaptive BIM/CIM models for the digital replication of automated shotcreting of civil infrastructure projects. For a digital twin, simulations, and visualizations are essential for the process monitoring and diagnostics alongside the control of the physical asset in real-time through real-world data synchronization. Hence this paper proposes adaptive modeling of civil infrastructures (physical assets) and their associated requirements to facilitate the simulations and visualizations during the digital twining of the related asset and process. The proposed approach takes into account the creation of adaptive BIM/CIM models at the initial stage such as modeling in parts instead of a single element to facilitate the purpose of the visualizations of the digital model in the later stages of the creation of DT. Additionally, the use of an IFC-based hierarchy is prioritized for the purpose of linking the 3D object elements to the corresponding sensor data and simulations. Other aspects taken into consideration are the registration of robots with GIS measurements and the integration of IoT sensors.
Adaptive BIM/CIM for Digital Twining of Automated Shotcreting Process
https://orcid.org/http://orcid.org/0000-0001-5775-9438
The development of digital twins (DT) for construction processes requires adequate replication of real-world spaces. Therefore, the use of Building/Civil-Construction Information Modeling (BIM/CIM) for the creation of a digital representation of the physical process and asset plays a vital role. The construction process considered for this research study is shotcrete application and surface finishing during the construction and finishing phases. The research presents the role of adaptive BIM/CIM models for the digital replication of automated shotcreting of civil infrastructure projects. For a digital twin, simulations, and visualizations are essential for the process monitoring and diagnostics alongside the control of the physical asset in real-time through real-world data synchronization. Hence this paper proposes adaptive modeling of civil infrastructures (physical assets) and their associated requirements to facilitate the simulations and visualizations during the digital twining of the related asset and process. The proposed approach takes into account the creation of adaptive BIM/CIM models at the initial stage such as modeling in parts instead of a single element to facilitate the purpose of the visualizations of the digital model in the later stages of the creation of DT. Additionally, the use of an IFC-based hierarchy is prioritized for the purpose of linking the 3D object elements to the corresponding sensor data and simulations. Other aspects taken into consideration are the registration of robots with GIS measurements and the integration of IoT sensors.
Adaptive BIM/CIM for Digital Twining of Automated Shotcreting Process
https://orcid.org/http://orcid.org/0000-0001-5775-9438
The development of digital twins (DT) for construction processes requires adequate replication of real-world spaces. Therefore, the use of Building/Civil-Construction Information Modeling (BIM/CIM) for the creation of a digital representation of the physical process and asset plays a vital role. The construction process considered for this research study is shotcrete application and surface finishing during the construction and finishing phases. The research presents the role of adaptive BIM/CIM models for the digital replication of automated shotcreting of civil infrastructure projects. For a digital twin, simulations, and visualizations are essential for the process monitoring and diagnostics alongside the control of the physical asset in real-time through real-world data synchronization. Hence this paper proposes adaptive modeling of civil infrastructures (physical assets) and their associated requirements to facilitate the simulations and visualizations during the digital twining of the related asset and process. The proposed approach takes into account the creation of adaptive BIM/CIM models at the initial stage such as modeling in parts instead of a single element to facilitate the purpose of the visualizations of the digital model in the later stages of the creation of DT. Additionally, the use of an IFC-based hierarchy is prioritized for the purpose of linking the 3D object elements to the corresponding sensor data and simulations. Other aspects taken into consideration are the registration of robots with GIS measurements and the integration of IoT sensors.
Adaptive BIM/CIM for Digital Twining of Automated Shotcreting Process
Lecture Notes in Civil Engineering
Fottner, Johannes (editor) / Nübel, Konrad (editor) / Matt, Dominik (editor) / Khan, Rehan (author) / Tomar, Rahul (author) / Ibrahim, Ahmed (author)
International Conference on Construction Logistics, Equipment, and Robotics ; 2023 ; Munich , Germany
2023-09-19
10 pages
Article/Chapter (Book)
Electronic Resource
English
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