BIM Modelling Services
Scan to BIM

We offer comprehensive 3D laser scanning services tailored to the architectural, engineering, and construction sectors across Montreal. Utilizing cutting-edge equipment, technology, and methodologies, our team produces exceptional point clouds, as-built diagrams, and 3D BIM models.
Highly Accurate 3D scanning and Point Cloud conversion.

LiDAR Data Capture
A complete scan of both the interior and exterior of the property.

Colorized Point Cloud
Digital twin archives any property with millions of colorized points and 360 images.

Architectural Drawings
AutoCAD sheets delivered to the standards of the architect or engineer working on the project.

3D BIM Modelling
Revit model includes all walls, floors, doors windows, basic fixtures, visible structural elements, roof line and ground topography immediately around the structure.
Key Advantages of Scan-to-BIM
Reasons why you should rely on the services of UTAG 3D Vision
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Time Saving
By leveraging scan-to-BIM workflows, the AEC industry can experience up to a 60% reduction in data collection and processing time compared to traditional surveying methods.
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Cost Savings
Utilizing scan-to-BIM technology can lead to an estimated 40% reduction in project costs, as it minimizes errors, rework, and resource allocation.
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Sustainability Improvements
Scan-to-BIM workflows contribute to a 25% reduction in material waste and an improved environmental footprint for construction projects by enabling more accurate planning and resource management.
Source: Journal of Information Technology in Construction (2021)
Innovate Today
Scan-to-BIM workflows offer significant benefits to the AEC industry, including time and cost savings, improved accuracy, enhanced collaboration, reduced risk, and increased sustainability.
This innovative approach minimizes errors, boosts efficiency, and fosters better decision-making, leading to more successful construction projects..
Summary of Benefits
Time and cost savings:
Scan-to-BIM workflows enable quicker and more efficient data collection, leading to reduced processing times compared to traditional methods. This streamlining helps lower overall project expenses. By minimizing errors and rework, the technology further contributes to cost savings, ultimately improving project budget management.
Improved Accuracy:
Scan-to-BIM technology captures highly accurate spatial data and transforms it into reliable 3D models. This enhanced precision allows architects, engineers, and construction professionals to make more informed decisions, leading to improved project outcomes and reduced likelihood of costly mistakes.
Enhanced Collaboration:
A centralized BIM model serves as a shared platform for interdisciplinary communication, allowing team members from various fields to access, update, and collaborate on a single model. This fosters improved coordination and understanding among team members, leading to more efficient and cohesive project execution.
Reduced risk:
By minimizing the need for manual measurements and physical site visits, scan-to-BIM processes decrease the potential for on-site accidents and safety hazards. In addition, accurate 3D models help identify potential risks early in the project lifecycle, allowing for proactive risk mitigation strategies.
Increased sustainability:
Scan-to-BIM workflows contribute to more sustainable construction practices by enabling better planning and resource management. With accurate models and data, construction professionals can optimize material usage, reduce waste, and minimize the project’s overall environmental impact.
Innovative approach:
Adopting scan-to-BIM workflows signals a commitment to modernizing the AEC industry by embracing cutting-edge technology. This innovative approach not only drives project success but also positions companies at the forefront of industry advancements, making them more competitive and future-ready.