We rebuild the geometry of elements and infrastructures using 3D laser scanner technology

Generation and use of point clouds

A Point Cloud is a great help to identify the existing elements of a site and can provide very detailed plans with the click of a button, pointing out where the elements are, as well as their sizes and heights, which we can then check in our construction modeling software (Autodesk Revit, ArchiCAD, Allplan, Tekla, Solidworks ...) that we are using.

In a cloud of points any view on the screen can always be referenced. This means that, from a plan view, elevation, section or 3D, there will always be a clear detail about what exists in that particular part of the building.

It also allows us to model proposals against what exists by combining them. which is very useful to find problems and detect conflicts with existing components. This is not only useful for architects and builders, but also for service contractors, since the level of detail that a point cloud can provide is extremely accurate. For example, being able to clearly represent where existing pipelines and pipelines are located could be extremely useful.

What is a Point Cloud?

Technically, the Point Cloud is a database that contains the points in a three-dimensional coordinate system of the element or installation to be studied. However, from the perspective of the typical workflow, the point cloud is a very precise digital record of an object or space, which contains a large number of points covering the surfaces of an object obtained by laser scanner or photogrammetry.
Points in a cloud of points are ALWAYS located on the outer surfaces of visible objects, because these are the points where the scanner's beam of light is reflected from an object.

If the size of individual points is large enough in a certain view or zoom configuration, the point cloud could be perceived as a continuous surface. If the distance between the points is slightly larger, then we can clearly see that this image is made up of individual points, but even so, our brain can take shapes of an object from that image with relative ease.
It is essential to understand that the point cloud is a set of individual, unrelated points with defined position and color. This makes dot clouds quite easy to edit, show and filter.
The usefulness of point clouds originates, because points are easy objects to handle in large quantities. A computer does not have to worry about scale, rotation and relationships with other objects. Only position and color are things that matter for the calculation. This makes dot clouds quite easy to edit, show and filter data.

Why use point clouds?

The detail and precision of the mapping system of the point cloud obtained by means of a 3D laser scanner makes it an extremely useful tool to digitally represent existing conditions. It allows creating a representation of the "real world" of the workplace, so it is no longer necessary to make conjectures (assumptions), make site visits and manual measurements that consume time and effort.
For example, if we are designing a building that connects to an existing one, we will essentially have the existing and accurate representation, but in 3D!
Point clouds support our design by allowing us to design around the actual configuration of the site, which allows us to detail and accurately model existing buildings. This will help us in eliminating tasks, planning costs and elaborating the details of the construction. Likewise, it will provide the precise configurations for the prefabrication and verification of the construction installation.

Use of point clouds in new construction projects

It may sound strange at first, but 3D laser scanning can also play an important role in new construction projects. It is known that many construction projects have to deal with high error costs, for example, because the new elements that are placed already adjust because the predecessor has made an error in the dimensions. In other words, it can happen that the building deviates from the design during construction. This type of problem can be avoided by verifying the dimensions of the elements already built in the meantime. Point clouds offer the possibility of quickly making a divergence detection between the theoretical 3D model (the design) and the current situation at a particular moment in the construction process.

 

Acquisition of point clouds

The key factor in acquiring data from the point cloud is access / visibility to the scanned surfaces. It is important to remember that the point cloud is obtained through visible access to real objects. Regardless of the acquisition method (laser scanner or photogrammetry) it is impossible to obtain points on surfaces that are not visible from the position from which we collect data. This means that to cover all the objects you have to combine many scan positions.
The density is used to describe the resolution in the collected data set, this usually means the distance from one point to another. The clouds of less dense points are obviously much faster to capture but of less detail.
Most data in the point cloud contains not only the position of a point, but also a description of the visual properties, such as the color of an object or its reflectivity.

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