A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Research on Visualization Technology of Super High-Rise Building Monitoring Information Based on BIM
In recent years, the number of super high-rise buildings has continued to increase globally, and the demand for operation and maintenance monitoring has been rising consistently. The type of sensors for super high-rise monitoring system is complex, and the number of sensors is enormous. The current monitoring visualization technology is primarily based on charts, which fails to reach the application requirements for accuracy, efficiency and intuitive display of multi-source heterogeneous monitoring information. Rely on BIM visualization, this paper proposes a 3D visualization technology of monitoring information based on BIM model for super high-rise buildings. The 3D visualization technology is divided into a sensing convergence layer responsible for mixed transmission of data acquisition, an integrated fusion layer responsible for data processing and fusion, and an interactive display layer responsible for data display. The integrated fusion layer includes the attribute-model separation of BIM model, the object-oriented processing of sensor data, the attribute-model binding of sensor data and BIM model, and the generation of spatial interpolation cloud atlas. The interactive display layer realizes attribute-model cloud atlas display, state color attribute-model linkage display and floating window model-attribute linkage display. The visualization technology in this paper realizes the fusion of BIM model and monitoring data. The BIM model is used to express the spatial location and topology information of monitoring data, in order to achieve the intuitive and accurate visualization effect of monitoring results and improve the monitoring efficiency of super high-rise buildings.
Research on Visualization Technology of Super High-Rise Building Monitoring Information Based on BIM
In recent years, the number of super high-rise buildings has continued to increase globally, and the demand for operation and maintenance monitoring has been rising consistently. The type of sensors for super high-rise monitoring system is complex, and the number of sensors is enormous. The current monitoring visualization technology is primarily based on charts, which fails to reach the application requirements for accuracy, efficiency and intuitive display of multi-source heterogeneous monitoring information. Rely on BIM visualization, this paper proposes a 3D visualization technology of monitoring information based on BIM model for super high-rise buildings. The 3D visualization technology is divided into a sensing convergence layer responsible for mixed transmission of data acquisition, an integrated fusion layer responsible for data processing and fusion, and an interactive display layer responsible for data display. The integrated fusion layer includes the attribute-model separation of BIM model, the object-oriented processing of sensor data, the attribute-model binding of sensor data and BIM model, and the generation of spatial interpolation cloud atlas. The interactive display layer realizes attribute-model cloud atlas display, state color attribute-model linkage display and floating window model-attribute linkage display. The visualization technology in this paper realizes the fusion of BIM model and monitoring data. The BIM model is used to express the spatial location and topology information of monitoring data, in order to achieve the intuitive and accurate visualization effect of monitoring results and improve the monitoring efficiency of super high-rise buildings.
Research on Visualization Technology of Super High-Rise Building Monitoring Information Based on BIM
Lect. Notes on Data Eng. and Comms.Technol.
Takenouchi, Kazuki (editor) / Wu, Shuyang (author) / Li, Ke (author) / Li, Chen (author) / Peng, Lin (author) / Yun, Zehui (author) / Feng, Jinfei (author)
International Conference on Geometry and Graphics ; 2024 ; Kitakyushu, Japan
ICGG 2024 - Proceedings of the 21st International Conference on Geometry and Graphics ; Chapter: 37 ; 383-386
2024-09-27
4 pages
Article/Chapter (Book)
Electronic Resource
English