CAPI VISION BLOG

Why Visualization Matters

Benefits of 360° & 3D Scanning Services in the Construction Industry

360° & 3D scan services have to be accurate and precise because they are responsible for the photo documentation of the construction projects. The growing popularity of Contexto Global's scan-to-BIM services in construction projects is because of their highly dynamic and detailed documentation, monitoring, quality assurance, project detection, and easy access. 

 

What is the Role of Scan and Point Cloud in the Construction Industry?

 

The powerful capture the real-time data in three dimensions by measuring the distances of the construction site environment and objects. And you can feed the captured data in rendering software because it’s a cloud of millions of data points.

 

You can further use the data to create interactive schematic diagrams for highly accurate project measurements. Similarly, 3D scan architecture systems can help construction managers and engineers to keep up with the detailed site inspection and quality of infrastructure.

 

How Accurate is Contexto Global Scan-to-BIM?

 

If you are planning to utilize Contexto Global's scan services, know that this service will be extremely precise and will provide you with the correct measurements the first time. You can also use the laser scan services to create 3D architectural walkthroughs, which saves unnecessary costs and labor.

 

In short, you get a digital duplicate of the existing physical structure of your construction job site with the help of Contexto Global 360° & 3D scanning services and access to the distance, area, and other elements of the job site.

 

How Can You Use Point Cloud in Construction Projects?

 

Have you contacted Contexto Global for a 360° & 3D scan service and wondered what you can do with the point cloud? Well, there are many 3D point cloud rendering applications in the construction industry:

 

Scan-to-BIM

You can use the point cloud by quickly accessing it by scanning as-built measurements directly to BIM using any software you like.

Suggested reading: If you want to learn more about point clouds, check out this article.

 

Surveying Complex Locations

Worksites, including new builds, demolitions, and renovations, consist of very complex structures. Manually surveying complex structures means an increase in the budget due to staffing needs and increases the risk of error. Point cloud services streamline the process.

 

Streamlining & Optimizing Processes

There is no better way to streamline construction site processes using a 360° & 3D point cloud, from planning and operation to management and monitoring.

 

The biggest benefit by far is the enhanced coordination. Majority of Contexto Global's clients work directly with other consultants in the industry to best optimize their projects. By starting the project with a central, accurate model, the project starts on the right track. Using point clouds and scan-to-BIM services, it eliminates the need for on-site visits, which are incredibly expensive and time draining. Laser scanning creates a 360° & 3D virtual overview, Matterport provides photogrammetry or laser which combined into Cupix eliminates the need for site visits. A project team has access to the smallest site details, to better understand the complexities present in the site.

 

However, Conyexto Global can help you save costs through offsite monitoring and inspection, project planning, better administrative strategies, and tracking different project stages. All such processes otherwise require unnecessary trips to the project site, enhancing costs.

 

Why Visualization Matters

Use of Scan-to-BIM in designing sports stadium

 

Have you ever been to an arena or a stadium?

If you have, you might have witnessed how massive they are. Well, in order to design and construct such stadiums, a lot of effort is required, and the designers have to be very precise and accurate with their design. Similarly, when it comes to redesigning and updating these stadiums, developers need to be very careful. The BIM (Building Information Modeling) process, which is growing in popularity in the AEC (architecture, engineering, and construction) sector, is a key factor in the updating and redesigning of sports stadiums throughout the globe.

 

Well, in this article, we are going to discuss what Scan-to-BIM is and how it is used in developing sports stadiums.

 

What Is Scan-to-BIM?

Scan-to-BIM is a process that makes use of cutting-edge technologies like 3D laser scanning, and high-definition photogrammetry for the purpose of creating a BIM model of a building or existing space. Using a laser scanner, the Scan to BIM process creates precise 3D scans of the project's real data. The scanned information could then be imported into the 3D model to produce replicas of the actual structures that were built or to provide real-world information for design purposes.

 

Generally, the Scan-to-BIM process is divided into five main stages. These are as follows:

Surveying
Scanning
Processing
Modeling
Incorporating Additional Information

 

 

How Are Stadiums Designed, And What Is The Role Of Scan-to-BIM?

The first step when designing sports stadiums is to survey the site of the stadium. Here the analysis is done as to what are the conditions of the ground. Then the next step involves detailing such as what kind of material is to be used, what type of rooms are to be built, what sort of elevators in the stadium will be used, and the list goes on. This is basically where the concept of the stadium is formed.

Once this concept is formed, the next stage involves reviewing the structure of the stadium and integrating various systems. These systems may include crowd modeling and mechanical system design. After this stage, the design development phase arises. This is the time when detailed calculations are done, and the selection of equipment that is to be installed inside the sports stadiums is finalized. Opinions and pieces of advice from broadcast specialists, ICT experts, and various other departments are also taken into account at this particular stage. Then comes the final stage, where after determining equipment, materials, etc., the design is finalized.

In this entire process, the use of Scan-to-BIM is in creating as-built BIM models for adding new equipment and for renovating the already established sports stadium. In addition to this, Scan-to-BIM also helps in enhancing the BIM models, and this happens because of the precise point cloud data.

 

Benefits Of Scan-to-BIM When Designing Sports Stadium

Well, there are a number of benefits of Scan-to-BIM, particularly when it comes to designing sports stadiums. Following are a few of these:

Fast data collection at the site of the stadium
Provides accurate stadium site information
Data collected can be shared among various stakeholders of the stadium
It helps designers visualize more detail
It can help in detecting errors promptly, which ultimately saves a lot of costs.

Scan-to-BIM has always been beneficial for designers. Similarly, for the design or redesign of sports stadiums, it has proven to be a game changer. More accurate, innovative, and top-class stadiums are now being developed with the help of this technology.

 

Why Visualization Matters

How Using LiDAR Drone Surveying Can Optimize Workflows

LiDAR drone surveying is a fast, efficient way to produce 3D point clouds. It enables you to gather critical data while reducing your risk of injury and making site inspections safer than ever before. So what are you waiting for? Dive deeper into this technology here!

 

Get a Bird’s-Eye View of Your Project

LiDAR is a powerful technology that can help you better understand your project. It works by transmitting pulses of light from a laser and measuring how long it takes for the light to bounce back. The more data points collected, the more accurate your measurements will be.

 

LiDAR is used in both construction and infrastructure projects as well as mining, forestry and agriculture (to name a few). In addition to being able to collect information about terrain features like hills or valleys it also allows you to see through objects such as trees or buildings so that they don't obscure what's going on below them.

 

Increase the Speed and Accuracy of Your Projects

LiDAR drone surveying has the ability to increase the speed and accuracy of your projects. Using LiDAR, you can survey large areas quickly, which means that you don’t have to wait for days or weeks before seeing results from your drone surveys. You can also get accurate measurements in difficult to reach areas where traditional methods would require extensive transit time.

 

Additionally, high density objects like buildings will be easier to detect with LiDAR than if they were just identified by eye alone. This means you can make decisions based on data rather than guessing!

 

Finally, when using LiDAR drones for surveying purposes it’s important that they are properly calibrated so their readings match up exactly with what we expect them too; otherwise we might end up getting inaccurate information about our surroundings (and this could lead into disasters).

 

Get a Detailed Picture of Your Site

The LiDAR drone survey is a powerful tool for improving site planning, but it's not just about getting a detailed picture of your site. It can also be used to measure distances from one point on the ground to another point on the ground and from one point in space (e.g., an object) to another point in space (e.g., another object).

 

For example, if you need to know how far away something is so that you can build it accurately and precisely, then laser distance measurement will help get this done quickly and accurately without having to measure each individual item individually with tape measures or other devices such as rulers or pens!

 

Safely Access Near-impossible to Reach Sites

LiDAR drones are able to safely access areas that are difficult to get to. They can collect data in areas where it is dangerous for people to go, or where crews would otherwise have difficulty accessing. For example, if you need a topographic survey of an inaccessible mountain peak, using LiDAR drone technology will allow you to safely reach the site and collect valuable data.

 

Communicate More Effectively With 3D Point Clouds

With 3D point clouds, you can create a variety of visualizations and models. You may want to visualize the topography of your area or use them as reference points for other datasets.

 

For example, if you are mapping an area with LiDAR technology, this data can be used as an overlay with other datasets (such as satellite images) to create a 3D model of your entire surrounding environment. This will allow you to see what’s going on in different parts of your property at once!

 

Improve Safety Audits and Inspections

On site, you can significantly improve safety audits by reducing the need for people to enter dangerous areas, while still gathering crucial data.

Safety audits and inspections are an important part of any construction project. They help ensure that people are safe on site and this can include checking for any issues with the site or equipment, as well as ensuring that precautions have been taken to prevent accidents from occurring.

 

One way LiDAR technology is being used to improve safety audits is by allowing surveyors to gather data at high resolutions in difficult-to-reach areas where traditional surveying methods may not be possible. This means that when working in dangerous areas such as subways or enclosed spaces, you can use your drone instead of human workers who could be injured by falling debris or getting caught up in equipment malfunctioning due to poor maintenance practices (such as electrical faults).

 

With LiDAR technology being so accurate at capturing fine details like cracks on walls or uneven surfaces beneath them (which would otherwise go unnoticed), it also has applications within industry standards like ISO 9001:2015 - Quality Management Systems Requirements Version 2 (QMSRV2) which requires companies providing products such as medical devices do not compromise quality by cutting corners during installation procedures."

 

Produce 2D Maps and 3D Models Quickly and Accurately in a Single Flight

LiDAR is a type of laser scanning that uses light in the form of a pulsed laser to measure distances. It's often used for 3D modeling and can produce accurate outputs by taking hundreds of readings from different angles and distances, which results in more accurate data than traditional surveying methods.

 

LiDAR drones are equipped with powerful cameras that capture high-resolution images of real-world objects or structures (such as buildings) using infrared light beams. The resulting digital models can be easily manipulated into 2D or 3D formats without requiring any additional software or hardware.

 

A Deeper Drive into LiDAR Drone Surveying

LiDAR (Light Detection and Ranging) is a technology that uses lasers to create three-dimensional models of terrain. A LiDAR drone surveyor can use this data to create maps of buildings and other structures, so they can be inspected more easily when construction projects are underway.

LiDAR drones have been used in surveying projects for decades, but only recently have they become more affordable to homeowners who need accurate measurements on their property without having access to heavy equipment such as excavators or graders—which would cost thousands of dollars per day just for use during construction season!

 

Conclusion

LiDAR drone surveying is a great way to get the data you need for your project quickly and accurately. By getting a bird’s-eye view of the site before anyone even steps foot on it, you can make sure that no one gets hurt or injured by an unstable surface or other hazards. LiDAR drones have been used in many different industries over the past few years, including construction, forestry, agriculture and more! They are also an excellent tool for inspecting homes after they have been built so that everything can be inspected before moving forward with construction.

 

Why Visualization Matters

Benefits of a Scan to BIM Model

Contexto Global believes that absolutely everyone in the AEC industry would significantly benefit from laser scanning technology. LiDAR scanning used for architectural and planning purposes has reimagined the planning, design, and construction of buildings worldwide. With this high technological advancement, anyone can capture detailed as-built buildings and site conditions, with accurate and relevant data. LiDAR technology is slowly becoming a standard practice when it comes to refitting existing structures.

 

What is Laser Scanning?

Laser scanning measures the deflection of laser beams, most of these beams are invisible to the human eye. It’s common practice to use LiDAR for laser scanning. LiDAR stands for light detection and ranging. Essentially, a LiDAR scanner uses light to determine the distance between two objects. Laser scanning is highly accurate as it makes the built environment using laser beams to capture measurements and even color! These points are then scrupulously plotted and stitched to produce a 3D representation of the building project. These plotted points that represent a specific space are known as point clouds. But we’ll get into point clouds later. Let’s focus on laser scanning for now.

 

What are the Benefits of 360° & 3D Scanning?

There are several benefits to using 360° & 3D laser scanning services. Hand measuring is the traditional methodology that dominated the field, just due to lack of technology. The process can be very laborious and calculation errors are common. Also, multiple site visits are required to get dimensions, extending the process. But, let’s just list a few benefits of 360° & 3D scanning:

 

Extremely Accurate Data Collection

The Scan-to-BIM service will be extremely precise and will provide you with the correct measurements the first time. Laser scanning is highly accurate as it makes the built environment using laser beams to capture measurements and even color.

 

Save Significant Cost / Expenses

Because laser scanning is incredibly accurate, you are able to detect clashes and other significant building problems upon receiving the BIM file. Because every component is modeled to your preferred level of accuracy, you are able to find discrepancies quickly and early on.

 

Eliminate Costly Site Visits

Because you are receiving an accurate model from a service provider, like Robotic Imaging, you can eliminate the need to visit the site entirely - which can be extremely tedious and expensive. We enable designers and professionals to spend their precious time in their respective offices doing less of this busy work.

 

Save Time

Contexto Imagine’s quick turnaround time enables you to save time as well! What might take one person 4 site visits, 20 pages of measurements, and 2 weeks of modeling, Contexto Global’s professional team can do within a week’s time (depending on the project's scale and location). Let us handle the workload for you.

 

Improved Coordination

Because everyone on the project team is able to use a singular model from the beginning, this enables all involved parties to use the same information. This improves overall efficiency and decision making. It can also lead to improved project team relations, which will better facilitate the creation of a beautiful final project.

 

Reduces Manual Labor

Naturally, manual labor is prone to human error. Laser scanning can not only improve the safety of construction workers, btu even eliminate inaccuracies previously expected when using traditional documentation methods.

Suggested reading: If you want to learn more about best scanning practices, check out this article.

 

The History of Laser Scanners

Laser scanning originated in the 1960s. Before their invention, land surveying was completed manually. Surveyors used tools like tape measures, plumb bobs, piano wire, and laser range finders. Surveying land could take weeks or months, depending on the size and complexity of the project. Manually collecting data often lead to errors and missing data, resulting in project issues and increased costs. Once laser scanners were introduced, the equipment consisted of lights, cameras, and projectors. During this time, the data was still manually processed. The introduction of LiDAR systems in 1985 changed the way data was collected. LiDAR systems used high-quality laser beams and shadowing to generate accurate and impactful data.

 

What is a Point Cloud?

Point clouds are plotted data points that represent space. A single point is plotted in an X, Y, Z coordinate and will represent an underlying sampled surface. Multiple data points will collate into multiple spatial measurements and therefore can effectively represent entire interior or exterior spaces. Sometimes, additional data, like color and luminance value, can be stored in an RGB format.

Point clouds are the most accurate, pain-free method of measuring buildings and their properties. These measurements produce the most precise and detailed data in comparison to other surveying technology. Developments in technology will push point cloud scanners to improve their accuracy and capabilities within the next few years.

 

What is BIM?

The Scan to BIM Process has helped enhance the productivity of AEC professionals with the creation of smart 3D building models where each design element is clearly defined. The application of Scan to BIM Modeling can be seen in as-built documentation, project renovations, additions, and even facility management. The models are also valuable for comparing original building plans, topographical registration, and more.

BIM, or Building Information Modelling, is the future of the construction industry. Aided by technology such as 3D Laser Scanning, BIM has opened new avenues for improved design, delivery and maintenance of buildings.

Real-world point clouds are converted into digital representations of the project in 3D BIM modeling. Starting with the point cloud scan verification and file insertion in Revit, a series of processes must be used to model the point cloud scan. An as-built 3D BIM model is produced with the help of point cloud scan data that can ultimately be used for the building's renovation as well as reconstruction.

 

Benefits of a Scan to BIM Model:

It helps reduce construction costs. Scan-to-BIM eliminates the need for on-site visits, which are incredibly expensive and time draining.

The Scan to BIM Model facilitates transparency, collaboration, and effective communication. The biggest benefit by far is the enhanced coordination. Majority of our clients work directly with other consultants in the industry to best optimize their projects. By starting the project with a central, accurate model, the project starts on the right track.

The model generated through Laser Scan to BIM offers greater quality assurance. A project team has access to the smallest site details, to better understand the complexities present in the site.

 

Scan to BIM Modeling assists in project alterations and improves decision-making.

Laser Scan to BIM Services help reduce costly mistakes during construction. Scan to BIM is the most crucial element of the BIM process, therefore, it's essential to capture and create high-quality 3D BIM models that add value to the construction process. The final result should meet the client's requirements and benefit all project stakeholders.