Architectural documentation should reflect reality, not assumptions.
Our AI-powered Scan to BIM workflow transforms point cloud data into precise architectural models, validating walls, floors, ceilings, and spatial layouts for renovation, retrofit, and redevelopment projects.
✔ Field-verified geometry
✔ Models prepared for retrofit planning
✔ Delivered across LOD 200–500 standards
✔ Scalable production capacity up to 10,000 sq. ft. per day
When accuracy and speed both matter, your model shouldn’t compromise on either.
The world is full of existing buildings that need upgrading. But “As-Built” drawings are rarely accurate. Scan to BIM is the bridge between the physical world and the digital model.
How we digitize the built environment:
1️⃣ Process: We take raw laser scan data (Point Clouds).
2️⃣ Model: We trace the points to create intelligent walls, pipes, and beams in Revit.
3️⃣ Verify: We compare the model against the scan to ensure <10mm deviation.
Perfect for retrofits, heritage preservation, and facility management setup.
𝐒𝐮𝐫𝐯𝐞𝐲𝐨𝐫𝐬: 𝐈𝐬 𝐢𝐭 𝐭𝐢𝐦𝐞 𝐭𝐨 𝐢𝐧𝐭𝐞𝐠𝐫𝐚𝐭𝐞 𝐒𝐜𝐚𝐧 𝐭𝐨 𝐁𝐈𝐌 𝐢𝐧𝐭𝐨 𝐲𝐨𝐮𝐫 𝐰𝐨𝐫𝐤𝐟𝐥𝐨𝐰? 💡 The answer is yes. Going beyond traditional methods, Scan to BIM offers powerful, data-rich advantages that drive efficiency and accuracy on every project. Here are the 𝐊𝐞𝐲 𝐀𝐝𝐯𝐚𝐧𝐭𝐚𝐠𝐞𝐬 𝐨𝐟 𝐒𝐜𝐚𝐧 𝐭𝐨 𝐁𝐈𝐌 𝐟𝐨𝐫 𝐒𝐮𝐫𝐯𝐞𝐲𝐨𝐫𝐬:
📄 Reliable Documentation for future work. 🔍 Precise Analysis of space and demolition requirements. 🏗️ Comprehensive Structural Details & load-bearing calculations. 🌐 Immersive 360 Visualization for clear stakeholder understanding. ⏱️ Improved Asset Tracking for faster maintenance and repairs. Embrace the future of surveying and reality capture!
We’re partnering with leading reality-capture and scanning firms to convert massive point-clouds into coordinated, construction-ready BIM — white-label Scan to BIM and BIM coordination at scale.
𝐖𝐡𝐲 𝐢𝐭 𝐦𝐚𝐭𝐭𝐞𝐫𝐬
🔎 Faster, clearer handovers from capture to BIM
⚠️ Reduce clashes and rework with coordinated, clash-free models
💼 New revenue streams for capture partners via white-label services
⏱️ Quicker project delivery for renovations, retrofits and surveys
𝐖𝐡𝐚𝐭 𝐲𝐨𝐮 𝐠𝐞𝐭 (𝐭𝐨𝐨𝐥𝐤𝐢𝐭)
🛰️ High-fidelity point-cloud processing & cleanup
🧭 Registered, geo-located point-cloud to model conversion
🧩 Coordinated, clash-detected BIM ready for construction workflows
🤝 White-label Scan to BIM & global BIM coordination teams
𝐔𝐬𝐞 𝐢𝐭 𝐭𝐨
🔧 Scale Scan to BIM without adding overhead
📐 Deliver clash-free models for tendering and site works
📈 Monetize capture work - offer finished BIM outputs to clients
Tesla Outsourcing Services strengthens the AEC ecosystem by turning raw scans into construction-ready BIM — faster insights, lower risk, and more value for capture partners and project teams.
🚀 Why Scan to BIM Is Reshaping Construction Efficiency
From cutting manual surveying time by 75% to reducing rework by over 80%, Scan to BIM is transforming how the built environment is documented, designed, and delivered. With 280% ROI and proven success in projects like hospital retrofits and complex industrial facilities, it’s more than a tool—it’s a strategic advantage.
🔎 Read the full blog to explore how digital twins, machine learning, and 3D laser scanning are driving faster, smarter, and more sustainable construction.
🛠️ Explore our Scan to BIM services and see how we can help you deliver better outcomes on your next project.
From historic restorations to modern renovations, Scan to BIM is a powerful solution for capturing existing conditions with exceptional precision—eliminating guesswork and enabling smarter planning, better quality control, and streamlined project delivery across all building types.
While Scan to BIM is essential for the preservation and documentation of heritage buildings due to their complexity, its value extends far beyond. It supports:
✅ Renovation Planning – Seamlessly integrating designs with accurate site data ✅ As-Built Documentation – Delivering precise digital records of completed projects ✅ Quality Control – Verifying on-site work against design intent ✅ Clash Detection – Identifying system conflicts before they escalate ✅ Space Management – Enhancing operational efficiency and layout planning
Ultimately, Scan to BIM is a versatile tool across the entire AEC sector—not just for heritage sites, but for modern buildings, commercial properties, industrial facilities, and infrastructure projects alike.
🔍 Curious about what it can do for your next project? Visit our website to explore our Scan to BIM solutions.
Top Benefits of 3D Laser Scanning Services for Accurate As-Built Documentation & Reality Capture
Tejjy Inc. is a trusted 3D laser scanning company in the USA, offering high-resolution reality capture and accurate as-built data for various industries. Our skilled professionals deliver precise 3D scanning services, providing point cloud data, 3D models, CAD drawings, and digital twins. With an accuracy of 4-6 mm, we cater to diverse sectors, including renovation, surveying, facility management, and heritage preservation. Serving over 150 million square feet, our solutions support general contractors, architects, engineers, asset managers, and more. Whether you need building scanning, lidar services, or 3D scanning, Tejjy Inc. is your go-to for accurate, reliable results.
Scan to BIM (Building Information Modeling) is a process of
converting physical or 3D laser scan data of a building or structure into a
detailed, digital 3D model. The process involves capturing the geometry and
features of a structure using 3D laser scanning technology and then processing
the data to create a detailed 3D model. The resulting BIM model can be used for
a variety of purposes, such as design, renovation, and facility management.
Capture the physical structure.
The first step in the scan to BIM process is to capture the
physical structure using 3D laser scanning technology. This involves using a
laser scanner to capture millions of data points about the shape, size, and
location of the building or structure. The laser scanner emits a laser beam
that bounces off the surfaces of the building and returns to the scanner, where
it is measured and recorded. The resulting data is known as a “point cloud”.
Processing Point Cloud data to generate a 3D model.
The point cloud data is then processed using specialized
software to create a 3D model. The software uses algorithms to analyze the
point cloud data and identify features such as walls, floors, ceilings,
windows, doors, and other structural elements. The software can also remove
noise and errors from the data to create a more accurate representation of the
building.
Import the data into Revit.
Once the 3D model has been created, it can be imported into
BIM software such as Autodesk Revit. BIM software allows designers, architects,
and engineers to create detailed models of the building that include
information about the structure, materials, and systems such as HVAC,
electrical, and plumbing. BIM models can also include information about the building’s
energy consumption, carbon footprint, and other sustainability metrics.
Level of detail and Level of accuracy.
One of the main benefits of using scan to BIM is the level of
detail and accuracy that can be achieved. Laser scanning technology can capture
millions of data points, resulting in a highly accurate representation of the
building. This can be especially useful for renovation or retrofit projects,
where accurate measurements are critical for ensuring that new elements fit
properly with the existing structure.
Safety on construction sites.
Scan to BIM can also be used to improve safety on
construction sites. By creating a detailed digital model of the building,
construction workers can visualize the building in 3D and identify potential
hazards or safety issues before they arise. This can help prevent accidents and
injuries on the job site.
Reduce costs and project timelines.
Another benefit of the scan to BIM is that it can help reduce
project timelines and costs. By using laser scanning technology to capture the
building’s geometry, designers and engineers can avoid the need for manual
measurements and reduce the time required to create accurate models. This can
result in cost savings for the project as well as reduced construction timelines.
Best practices of Scan to BIM.
This process has become increasingly popular in the
construction industry due to its ability to provide highly accurate and
detailed information about existing structures. Here are some best practices
for Scan to BIM:
1. Plan the project
thoroughly: Before starting the scanning process, it’s important to plan out
the project. This includes determining the scope of the project, identifying
any potential obstacles or challenges, and creating a timeline.
2. Use high-quality
equipment: To ensure the accuracy of the data collected during the scanning
process, it’s important to use high-quality equipment. This includes 3D laser
scanners, cameras, and other related equipment.
3. Capture all
relevant data: When scanning the building, it’s important to capture all
relevant data, including walls, floors, ceilings, and other structural
elements. This will help create a more accurate and detailed 3D model.
4. Use a consistent
scanning methodology: To ensure consistency in the data collected, it’s
important to use a consistent scanning methodology. This includes using the
same scanning settings, capturing data in the same order, and scanning at the
same speed.
5. Verify and
validate the data: After the scanning process is complete, it’s important to
verify and validate the data. This includes comparing the scan data to existing
building plans or other reference materials to ensure accuracy.
6. Use experienced
professionals: To ensure the success of the Scan to BIM project, it’s important
to use experienced professionals who are familiar with the scanning process and
the software used to create the 3D model.
7. Collaborate with
stakeholders: Throughout the Scan to BIM process, it’s important to collaborate
with all stakeholders, including architects, engineers, and contractors. This
will ensure that the final 3D model meets everyone’s needs and expectations.
How can BIM Engineering US, L.L.C. support modern
construction, renovation, and facilities management with Scan to BIM?
BIM Engineering US, L.L.C. can support modern construction,
renovation, and facilities management with Scan to BIM by leveraging the power
of 3D scanning technology and Building Information Modeling (BIM).
Scan to BIM is a process of capturing the physical
environment of a building using 3D laser scanners and converting it into a
digital model that can be used for design, construction, renovation, and
facilities management. This digital model, created by BIM Engineering US,
L.L.C., can be used to improve the accuracy, efficiency, and quality of the
construction and renovation process while reducing costs and minimizing errors.
Here are some of how BIM Engineering US, L.L.C. can support
modern construction, renovation, and facilities management with Scan to BIM:
1. Accurate
documentation of existing conditions: Scan to BIM allows BIM Engineering US,
L.L.C. to capture accurate measurements and data of the existing building
conditions, such as dimensions, shapes, and layouts. This information can be used
to create a highly accurate 3D model of the building that can be used for
planning and design purposes
2. Streamlined
design process: BIM Engineering US, L.L.C. can use the Scan to BIM model to
streamline the design process by importing the scanned data into their BIM
software, allowing them to create accurate and detailed designs based on the
existing conditions of the building
3. Improved
construction planning and coordination: With the Scan to BIM model, BIM
Engineering US, L.L.C. can perform clash detection and constructability
analysis to identify potential conflicts and issues before construction begins.
This helps to reduce delays, change orders, and costs during the construction
process
4. Efficient
renovation and retrofitting: Scan to BIM can also be used for renovation and
retrofitting projects by creating an accurate 3D model of the existing
building, which can be used to plan and execute the renovation process. This
can reduce the time and cost of the renovation process, and minimize disruption
to building occupants
5. Improved
facilities management: BIM Engineering US, L.L.C. can also use the Scan to BIM
model to improve facilities management by creating a detailed record of the
building’s systems and components, including HVAC, plumbing, and electrical
systems. This can be used to track maintenance and repairs and plan for future
upgrades or replacements
Improving the accuracy and speed of existing conditions with
Reality Capture.
Reality Capture is a powerful tool for improving the accuracy
and speed of existing conditions documentation. Here are some ways that you can
use Reality Capture to achieve these goals:
1. Accurately
capture existing conditions: Reality Capture allows you to create accurate 3D
models of existing conditions using photogrammetry, laser scanning, or a
combination of both. This can help you ensure that your documentation is
accurate and up-to-date, and can save you time by eliminating the need for
manual measurements.
2. Quickly process
data: Reality Capture is designed to process large amounts of data quickly,
which means you can create accurate 3D models in a fraction of the time it
would take to create them manually. This can save you time and allow you to
focus on other aspects of your project
3. Improve
communication: 3D models created with Reality Capture can be easily shared with
team members, clients, and stakeholders. This can help improve communication
and ensure that everyone is on the same page.
4. Enhance design
workflows: Reality Capture can be used to create accurate 3D models that can be
imported into other software applications, such as CAD or BIM software. This
can enhance your design workflows and help you create more accurate and
efficient designs.
5. Detect changes:
Reality Capture can be used to detect changes in existing conditions over time.
By comparing 3D models created at different points in time, you can identify
changes that may affect your project and make necessary adjustments.
In summary,
Scan to BIM is a process of converting physical or 3D laser
scan data of a building or structure into a detailed, digital 3D model. The
process involves capturing the geometry and features of a structure using 3D
laser scanning technology and then processing the data to create a detailed 3D
model. The resulting BIM model can be used for a variety of purposes, such as
design, renovation, and facility management. Scan to BIM offers a range of
benefits, including improved accuracy, safety, and cost savings.
Reality Capture is a powerful tool that can help you improve
the accuracy and speed of existing conditions documentation. By using this
technology, you can create accurate 3D models quickly and easily, improve
communication with stakeholders, enhance your design workflows, and detect
changes in existing conditions.
BIM Engineering US, L.L.C. can support modern construction,
renovation, and facilities management with Scan to BIM by providing accurate
documentation of existing conditions, streamlined design processes, improved construction
planning and coordination, efficient renovation and retrofitting, and improved
facilities management.
Homenaje a los héroes anónimos que forjaron la Patria. Ubicado en la Plaza Ing. Juan P. Fabini. Se capturo una secuencia unica de imagen en un mismo plano como prueba. El resultado rapido y de muy exacto detallado logrado con este soft en su etapa beta en comparacion a los tiempos de procesamiento excesivos de photoscan, y su incapacidad de trabajar con un solo plano de camara sin generar un desastre. En cuento al software libre aun presenta deficiencias a la hora de trabajar la malla creada y el elevado numero de poligonos sin respetar detalle. Por ultima opcion usamos RealityCapture, que aparte de como se dijo arriba es intuitivo y potente, ademas de veloz. El perfeccionamiento mediante escultura digital se esta realizando tambien comparativamente usando blender 2.8 zbrush 2018 y mudbox 2018 #montevideo #entrevero #zbrush #realitycapture #fabini #entrevero #montevideo #escultura #fotogrametria #photogrametry. #patrimonio #blender https://www.instagram.com/p/BqsW2EYh53-/?igshid=58rk0dll1k8f
Mobile phone cameras have become so much better in the past 10 years.
I think Night Mode feature is big jump forward on this evolution.
Not sure IG editing and filter make the results better. Original without a filter and edit is in my stories.
So much of the picture quality is driven by AI!
