The true potential of BIM for the construction industry

The True Potential of BIM for the Construction Industry.

The star player in the construction sector right now is BIM. Although the technology has been around for nearly ten years, over the past two years, much excitement has been generated around BIM in the construction industry. Although everyone knows BIM stands for building information modeling, what exactly is BIM? The process of creating and managing a project’s physical and functional information is known as BIM.

The process results in BIMs, or building information models, essentially digital files that detail every component of the project and aid in decision-making throughout a project cycle. BIM is more complex than 3D modeling, despite popular misconceptions.

What is BIM?

Building information modeling (BIM) is the digital representation of a building’s structural and functional details. A BIM construction is a shared knowledge resource when used as a solid basis for decisions throughout a facility’s life cycle, which is defined as existing from the time of initial conceptualization through demolition.

Applications of Building Information Modeling

The following applications for a building information model are possible:

  • Visualization: Producing 3D modeling in-house is simple and requires little extra work.
  • Code reviews: These models may be used by fire departments and other authorities to examine construction projects.
  • Cost estimation: BIM software has options for cost estimation and process automation. Material quantities are automatically retrieved and updated when modifications are made to the model.
  • Sequence: Coordination of material ordering, manufacturing, and delivery dates for all building components is possible using a BIM construction.
  • Conflict, interference, and collision detection: All key systems may be promptly and automatically tested for conflicts since building information models are made to scale in 3D modeling. This procedure, for instance, can confirm that plumbing doesn’t cross paths with steel beams, ducts, or walls.
  • Fabrication: For various building systems, shop drawings can be easily produced. For instance, once the model is finished, the sheet metal ductwork shop drawings can be easily created.
  • Forensic analysis: Using a building information model, it is simple to graphically represent potential failures, leaks, evacuation routes, and other scenarios.
  • Facilities management: It can be utilized by facilities management departments for remodeling, space planning, and maintenance tasks.

BIM V/S Old Traditional Methods

BIM v/s Old traditional methods

BIM Construction gives project participants better control and precision from the onset, enabling them to handle aspects like cost, quality, and time more effectively. These kinds of advantages have a significant impact on every aspect of information management, including productivity and manufacturing efficiency. The use of BIM presents many potential challenges compared to the conventional approach.

Because of the explicit design of the information and its availability to all stakeholders, better information management, use, and sharing can enhance decision-making activities. Participants in projects were accustomed to using their tools and systems to transmit information that was organized and appropriate for their unique needs and demands in the early days of the advent of BIM.

BIM Construction (Usage in different stages of construction)

BIM Construction Stages

Pre – Construction Stage

All project appraisal during the pre-construction phase aims to predict potential financial gains for the client and the contractor. BIM is useful for providing a framework for evaluating the project’s viability and for assessing the building’s future performance in terms of regulations pertaining to functionality and constructability. Studies on energy, acoustics, and illumination are now being conducted and studied. They will eventually significantly impact the outcome if adequately examined. With the conventional method, performing this kind of sustainability analysis was impossible. Because design and construction shareholders are involved, the initial cost of using a BIM system is more incredible.

Construction Stage

BIM construction enables cost savings both during the actual construction phase and during the pre-construction stage. In reality, because of the cost reductions, it prevents and is quite alluring, especially for larger organizations. One advantage of BIM in this stage is the ability to inspect all project components in advance, manage and plan the building construction process, minimize the need for on-site inventory, and lower expenses. In addition, BIM can monitor the project’s progress by routinely updating the model with the installation dates of both structures and systems.

Post – Construction Stage

Important data was gathered and kept in the BIM construction system during the entire process, allowing easy access and documentation even after the construction. For facility managers, most issues and time-consuming tasks are the time spent gathering information. The BIM will handle this situation with ease. In reality, before making any structure improvements, such as renovations or maintenance, a direct person had to be contacted through on-site surveys, but this is no longer essential.

Advantage Of BIM

Many business processes can be supported and enhanced by BIM technology’s process automation. Even though the architecture, engineering, building, and facility management industries were among the first to adopt BIM, numerous advancements had previously been made. The disciplines of BIM construction are connected to BIM technology and the process is the focus of the construction design and building because they respond to the growing strain of higher complexity, faster development, greater sustainability, and reduced building costs and usage.

Future Potential

BIM is a reasonably new technology, particularly in the construction industry, which is notoriously sluggish in adopting new technologies. BIM supporters assert that it will soon provide a great deal of value in terms of the following:

  • Increasing visual clarity.
  • Increasing productivity by making it simple to find information.
  • Improving construction document coordination.
  • Linking crucial data, including vendors for specific materials, the location of information, and the quantity requirements for tenders.
  • Quickening the pace of deliveries.
  • Lowering overall expenses

Lastly,

Building information modeling (BIM) as a methodology has vast implications for the construction industry. Still, in the end, in our opinion, it all boils down to the various project parties being able to access and use all the data they require at each stage of the project without needless duplication of effort or time spent on repetitive work. It is necessary for the project’s partners to transfer data effectively and in a format that everyone can access and use at various stages.

To assist clients in re-engineering their manufacturing processes and improving organizational effectiveness and results, Monarch Innovation creates personalized solutions. Monarch Innovation has a competitive advantage in the sector because of its cutting-edge infrastructure and a staff of highly qualified experts. The two main principles that Monarch Innovation fosters are innovation and creativity!!

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The Ultimate Guide: Scan to BIM

On existing site characteristics or brownfields, many AEC projects are located. More time, money, and effort are used on projects that start with an inspection and documentation of the circumstances on the job site. Even if BIM services can automate new construction work, how can it be used for existing building documentation?

High-resolution 3D modeling of current built and natural settings are captured using the scan to BIM method and transformed into usable models. The time-consuming and customary process of current site documentation can be automated using laser scanning technology.

The scanners are positioned in various locations to collect the physical forms on-site. The 3D modeling created from the scans, known as “Point Clouds,” is converted into architectural drawings. How exactly does this procedure operate? Learn more about the specifics in this article!

Scan to BIM (Major details)

 

Scan to bim

Different technologies are used today to modernize and provide better customer service. A cutting-edge method called SCAN to BIM Design Build harnesses the strength of 3D modeling and laser tracking technology with building information modeling. Construction experts may successfully plan projects from the final assembly stage through the use of laser scan to BIM technology, cutting the project duration by between 40% and 90%. A single reference file in a precise digital model is provided by the scan to BIM services design-build solution, giving customers various benefits like:

  • Obtain Reliable Reference Data in Real Time
  • Manage, Benchmark, Synchronize, and Organize Incoming Data
  • Plan and improve the performance of new buildings

How does BIM relate to scan-to-BIM?

The need for BIM deployment and the production of BIM schematics for existing buildings is expanding within the AEC sector. Scan-to-BIM is rapidly turning into an essential step in the BIM process.

Before a designer even begins, reality capture of as-built drawings conditions can give the model the most important information when a project involves an existing structure or site, as it will in most cases.

Here is a straightforward summary: Scan-to-BIM uses laser scan data to digitally capture a physical place or site, which is then used to build, develop, and maintain a BIM model.

How Does Scan to BIM Process Work?

Four stages make up the complete Scan to BIM process:

Scan to BIM Process Work

Identification of information needs:

Before beginning the Scan to BIM process, it is crucial to identify all the information needs for the desired model and drawings. The amount of detail in your model must be determined because greater modeling accuracy increases the as-built BIM’s dependability for the intended application. However, the cost increases with the level of detail. Therefore, a trade-off between price and data density must be negotiated. We locate the following data at this stage:

  • Necessary building materials
  • Required non-geometric properties
  • Required Level of Detail

Scan Planning:

Before capturing a 3D scan, settings are defined during scan planning. It is crucial since it is challenging to locate building design documentation that has already been completed. Therefore, optimizing the scanning parameters may be useful. It also entails determining all the properties required for scanning. The following list of parameter types includes:

  • Space Resolution
  • Coverage

Scanning:

A 3D laser scanner acquires data quickly and accurately and is used to perform scan-to-BIM operations. The tool has a quick-rotating, safe-for-the-eye laser. It is often set up on a tripod at the location, and as soon as the laser beam collides with a solid object, its location is recorded as points or coordinates. These points are mapped as a group, creating an extremely precise digital image. Once all the points have been collected, the scanner will colorize them to produce a point cloud scan or 3D representation of the location with numerous viewpoints.

3D modeling:

The final step in the scan to BIM process is to create a 3D BIM model of the existing building using the gathered Point Cloud Scan data.

What is the difference between a BIM model and a 3D CAD model?

3D CAD model

In both types of models, the geometric details of a real-world structure are contained. To represent a building, 3D CAD drawings, on the other hand, uses “dumb” lines that are not organized into objects in the model.

For instance, when you look at a window drawing in a CAD model, you may be aware that you are looking at a window, but the CAD model sees the window as a collection of unrelated lines.

It helps to connect the asset’s geometrical information to its functional information. A window will be recognized as a window by the BIM model. However, lines are grouped into objects in BIM models.

Why is scanning to BIM important now?

The AEC sector has benefited from numerous intriguing and innovative technological advancements to increase its effectiveness. Scan to BIM is the most significant of the bunch. Many remodeling projects may see scan-to-BIM or point cloud-to-BIM modeling measures. Here, data is inferred using laser scanning technology, and useful 3D BIM models are built using these data.

  • Scan to BIM facilitates enhanced cooperation, transparency, and communication.
  • The BIM model created with the scan data allows for increased dependability and quality assurance.
  • Lowers the price of construction
  • Scan to BIM facilitates project modifications and promotes quicker decision-making
  • Using BIM throughout the construction process improves the project’s sustainability
  • The virtual development of the BIM model from scan data aids in preventing costly construction errors.

Lastly,

The experts at Monarch Innovation are dedicated to offering ground-breaking, high-quality solutions in the field of “Design & Engineering,” Want to demo Monarch Innovation own BIM design services? Get in touch with one of our experts here. We’ll help you out.

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