The process of Scan to BIM initiates with a meticulous laser scan capturing the intricate details of the physical environment or construction site. This data is then meticulously processed and integrated into a comprehensive Building Information Model (BIM), which serves as a cornerstone of invaluable information for architectural design, construction, and facility management endeavours.
Utilizing laser scanning technology offers an unparalleled advantage, swiftly and precisely surveying various elements within the project scope. Whether it be an existing structure, a newly erected building, or any pertinent object within the project domain, the accuracy and efficiency of laser scanning prove indispensable.
Die Schritte von Scan to BIM
1. Scanning
Utilize advanced 3D laser scanners or photogrammetry techniques to capture precise data of the existing building or site. This process generates a comprehensive point cloud, accurately representing both external and internal geometries of the structure.
2. Point Cloud
Following scanning, meticulous processing of the point cloud data is undertaken to ensure its accuracy and practicality. This includes aligning multiple scans, if necessary, to create a cohesive point cloud encompassing the entire area.
3. Modelling
Once the point cloud data is refined, it is translated into a detailed mesh representation of the building or site. Utilizing Building Information Modelling (BIM) software like Revit, we create parametric models that precisely capture the intricacies of the mesh data.
4. Detailing
Further enhancing the model involves meticulous detailing. This includes integrating structural elements, fixtures, furniture, and other components to faithfully replicate the scanned environment's features and characteristics.
5. Documentation
Documentation plays a crucial role in our process. We enrich the BIM model with annotations, metadata, and additional information. This contextual data offers comprehensive insights into components, materials, dimensions, and other pertinent details, fostering seamless collaboration and informed decision-making throughout the project lifecycle.
6. Construction Progress Monitoring
Throughout construction, our BIM model serves as a dynamic tool, continuously updated to reflect on-site progress. Our meticulous construction progress monitoring involves regular comparisons between as-built conditions and the original design represented in the BIM model. This proactive approach enables the timely detection of any discrepancies, facilitating adjustments to ensure alignment with the design intent.
Einsatzbereich
Architectural Design
Detailed capture of existing buildings for analysis and planning of architectural projects.
Precise modelling of interiors and exteriors for remodelling, renovation, or as-built documentation.
Integration of 3D scanning data into BIM software for the development of accurate digital models.
Construction
Use of 3D scans to create precise models of the construction site, aiding in planning and logistics.
Monitoring construction progress through comparisons between the current state and the original design, helping identify deviations and improve efficiency.
Verification of compliance with design requirements and quality throughout all construction phases.
Facility Management
Creation of detailed BIM models for facility management, allowing comprehensive and up-to-date visualization of all building elements.
Utilization of 3D scans for condition inspections and predictive maintenance, identifying issues before they become major repairs.
Integration of maintenance information, warranties, and construction records for more efficient facility lifecycle management.
