What are the advantages of laser scanning?
Introduction
With the advent of 3D laser scanning, many people are wondering what they can do with it. You can use laser scanning for many different things, but one thing always comes up is whether or not it’s better than regular surveying techniques. To answer this question, let’s look at some of the advantages of using laser scanning and how they compare to traditional surveying methods:
Laser scanning is faster.
Laser scanning is faster and more efficient than traditional methods, which typically rely on manual surveys by hand. This means that you can precisely measure your structure in half the time.
Another advantage of laser scanning is its ability to be used on any structure. Conventional methods can only be used for buildings with traditional materials like wood, stone and mortar—but not all structures are made with these materials. For example, skyscrapers are usually built out of concrete; bridges are often constructed from steel or concrete; industrial facilities may use aluminium instead of wood beams, etc. Laser scanners can measure everything from single-family homes to skyscrapers because they don’t care how your building was made! It doesn’t matter if it’s made of concrete or stone—laser scanning will work just as well (and produce an accurate result).
Finally, laser scanning has another big advantage over conventional surveying practices: it can be done around the clock without any disruption or interference from weather conditions like rain or snowstorms (which could affect visibility) because there aren’t any people involved during these scans!
Laser scanning is safer than conventional methods.
One of the main advantages of laser scanning is that it’s safer than conventional methods. This is because the laser used in laser scanning is harmless to people and animals and doesn’t use any chemicals or other substances that could be harmful if they’re accidentally released into the environment.
Laser scanning is more accurate.
Laser scanning is a non-destructive method of measuring, which means that the object being scanned is not affected. This makes it ideal for use when preserved artefacts and historic buildings are concerned. Laser scanning can also measure the smallest details—even down to millimetres!
It’s also great for measuring changes in the environment over time because laser scanning allows you to create a 3D model of an object at any point in time by comparing multiple scans. This can be used for conservation or environmental monitoring (for example, temperature or humidity).
Laser scanning can be used for any size structure.
Another advantage of laser scanning is that it can be used for any size structure. Many people think a laser scanner will only work with small objects or buildings, but this is not true. Laser scanning can be used for small objects and large buildings with long spans and complex shapes.
Laser scanning can be used around the clock.
The best thing about laser scanning is that it can be used around the clock, even in adverse weather conditions. Unlike traditional ground-based survey methods, laser scanning can also be used in daylight without requiring special equipment.
Laser scanning is not affected by the time of day either—you can collect data anytime during 24 hours.
Laser scanning provides a fast, safe and accurate output with no limitations on size or time.
The advantages of laser scanning over conventional methods are numerous. Laser scanning is faster, safer and more accurate than traditional surveying methods. It can be used for any size structure and provide high-resolution scans 24 hours daily.
In addition, because the entire process is automated, only one person is needed to operate it—a significant improvement over conventional surveying techniques that require multiple people for setup, operation and cleanup.
Conclusion
With the advantages of laser scanning, it is clear why this method is better than the traditional measuring method. Laser scanning covers whether you look for more accurate data or faster results.