Take your first step towards the Career of your Dreams,

Discover Indovance Download our Brochure

Edit Template

Benefits of 3D Scanning Services for Building Information Modeling – SCAN to BIM


Scan to BIM is a Game-Changer in Scanning Technology. Scan to BIM has revolutionized the construction industry especially when renovating or retrofitting old buildings. You can collect comprehensive information about the building using Scan to BIM instead of looking for old plans and blueprints. As a result, the service allows for exact and accurate data utilization. It aids in the project’s completion by removing the guesswork needed in determining an ancient structure’s construction.

How can your team get accurate data that can be customized to suit a range of requirements and used across all three disciplines while staying on schedule?  The answer lies in BIM which stands for Building Information Modeling, a standardized planning process for creating digital 3D models that can be used by AEC professionals for design improvement, facilities management, and planning for maintenance costs over time. A single BIM model can contain an entire site’s physical and functional information, all contained in a single database. BIM enables efficient information transfer and coordination across teams and project stages.

In the Architecture, Engineering, and Construction (AEC) industry, efficiency is key. Therefore, The AEC industry is consistently adopting innovative techniques to enhance its productivity. One of the fastest-growing technologies in the AEC industry is Scan to BIM services.

What is SCAN to BIM?

The process of capturing and illustrating high-density point clouds of a landscape, structure, or site in order to produce a 3D BIM model is known as Scan to BIM. Point cloud data is a raw representation of data or focus points from laser scanners such as LiDAR or photogrammetry after it is generated. To generate a data-rich and exact 3D model, the point cloud must be transformed to mesh. The Point Cloud meshes are built-in comprehensive BIM models demonstrating how the components blend in the building system, utilizing a 3D solid modeling tool.

Several construction projects in the restoration and augmentation stages are adopting the point cloud scan to the BIM process for accurate modeling, clash coordination, and quantity take-off (QTO) or Bill of Materials (BOQ). Laser scanners make it easier to create a flawless 3D BIM scan, which can subsequently be loaded into 3D BIM software.

SCAN to BIM can be applied to various processes of a construction project such as construction area or site affirmation, design planning, design verification, design evaluation, MEP Coordination, As-built drawings, Remodeling/Renovation, quantity takeoffs, budget estimates, etc.

As the demand for the Adoption of BIM develops in the AEC industry, so does the demand for BIM schematics for existing buildings. Scan to BIM is rapidly becoming a necessary component of the BIM process. When a project comprises of a pre-existing structure or site, reality capture of as-built conditions can give important model information even before a designer ever starts working.

Benefits of SCAN to BIM Services

3D scanning systems provide a more efficient, accurate, and comprehensive method of constructing a model into which vital information may be registered. Here are a few of the most important benefits of employing 3D scanning to produce a comprehensive BIM model with end-user data.

1. Efficiency

By incorporating 3D scanning into the BIM process, the risk of construction interruptions is minimized, and the design process can be sped up. Designers and other important participants will have direct collaborative access to the essential information and will be able to make decisions quickly and efficiently, owing to point cloud data obtained during a terrestrial 3D scan, rather than waiting on hand measurements or data from another team.

2. Accuracy

The demand for quality assurance and reliability is driving progress in the AEC business, with 3D scanning to BIM and Virtual Design and Construction (VDC) being two examples. The accuracy of the final BIM model is substantially improved when 3D laser scanners are used instead of traditional hand measurement methods, which benefits VDC greatly. The BIM model is built from the scan data with scan-to-BIM, resulting in improved accuracy and smarter judgments. Construction interferences and modification orders, which have a direct impact on your job profitability, are almost eliminated with such precision.

The FUTURE is BIM shaped

3. Versatility

Across all stages of construction, maintenance, and system integration in commercial buildings, plants, and manufacturing facilities, BIM enables the sharing of a 3D database across relevant engineering and maintenance teams. The fields that teams will be able to input with essential data are modeled elements within the 3D Revit model. BIM’s collaborative nature makes it ideal for a variety of applications, including facilities management and maintenance. Laser Scanning can provide an as-built 3D Revit model geometry of building elements, allowing your team to see the big picture and plan for present and future demands.

4. Cost-Efficiency

Because of the greater precision involved with Scan to BIM site planning, you may create a more appealing spending plan for your activities. You can strive not to go over your budget, and you’ll have fewer chances of encountering excessive mix-ups or unexpected charges. Laser examining also eliminates the need for manual reviewing, lowering the cost of hiring additional workers.

5. Safety

Manual surveying may involve navigating across difficult terrain, posing a safety risk to surveyors. Scan-to-BIM uses drones to collect data from these tough terrains without putting people in danger.

BIM is already empowering to streamline workflows, reduce project errors, and improve overall project quality. Scan to BIM is used for a variety of applications, including creating 3D CAD models for fabricated components, metrology and quality inspection, and a variety of visualization, animation, rendering, and mass customization applications. The intricacy of the building/facility or landscape design, as well as its attributes, play a major role in the creation of a 3D model. The building’s ongoing remodeling and renovations add to the issues. Implementing reliable 3D Point Cloud technology with laser scanners and 3D modeling software, on the other hand, ensures skilled solutions in which each and every aspect of the landscape is recognized and distinguished from the next.

More than 45% of the AEC industry is moving toward precise and agile technology. Point cloud models can accurately illustrate relatively complex landscapes and objects with a large number of data or focus points to generate precise 3D models.

INDOVANCE Inc supports our clients with a complete range of Point cloud conversion services. We deliver a full range of BIM modeling projects. We work on parametric family creation, model creation for all LOD (Level of Detail), 4D and 5D support, and model phasing, as well. We also provide complete support for CAD to BIM, point cloud to BIM, SCAN to BIM, and PDF to BIM conversions.

For more queries regarding any of the above-mentioned topics, feel free to connect with us on our website www.indovance.com, or contact us at +1-919-238-4044.

Latest Posts
  • All Posts
  • Architecture
  • CAD Info
  • Civil
  • Corporate Social Responsibility
  • Events
  • Industry Info and CAD Tips
  • Mechanical
  • News
  • Press Releases
  • Publishing
  • Signage
  • Uncategorised
  • Uncategorized

Related Posts

Quick Links

Indovance Inc

Billing Address
1051 Pemberton Hill Road, Suite 101, Apex, NC 27502, USA

Indovance Pvt Ltd

Offshore CAD Studio
4th Floor, Navale Prestige, Narhe, Pune 411 041, Maharashtra, India
© 2023 Indovance. All Rights Reserved.
Scroll to Top