3D scanner

Before, during, and after reconstruction data is collected using a 3D scanner.

This technology constitutes the heart of the so-called time-of-flight 3D scanners.

The advantage of structured-light 3D scanners is speed and precision.

To "copy" a face, they need only a 3D scanner to determine the locations of an individual's 17 facial points.

The format was principally designed to store three dimensional data from 3D scanners.

The "picture" produced by a 3D scanner describes the distance to a surface at each point in the picture.

Point clouds may be created by 3D scanners.

Hand scanners come in two forms: document and 3D scanners.

Cyberware Inc. is a company that produces high performance color 3D scanners.

A well established classification divides them into two types: contact and non-contact 3D scanners.

Modulated light 3D scanners shine a continually changing light at the subject.

The 3D scanner transforms physical teeth into virtual teeth.

Optical 3D scanners can be used to create point clouds or polygon mesh models of external body features.

Modern industrial three-dimensional photography may use 3D scanners to detect and record three-dimensional information.

Both solutions process 3D point cloud datasets created using 3D scanners.

A 3D scanner is a device that analyzes a real-world object to collect data on its shape and appearance.

The 1.9 meter-long lion figurehead lying next to the ship was also brought up and recorded in a 3D scanner.

Because it was a 3D scanner, it was also able to measure the depth of cracks or holes that were found.

British company 4dMax employed special 3D scanners to digitize data of the sets and actors which would be used by the effects companies.

Creaform makes handheld 3D scanner software and hardware.

For large-scale non-interferometric measurement systems, see Structured-light 3D scanner.

The purpose of a 3D scanner is usually to create a point cloud of geometric samples on the surface of the subject.

The point clouds produced by 3D scanners can be used directly for measurement and visualization in the architecture and construction world.

For this purpose, 3D scanners are applied to generate point samples from the object's surface which are finally compared against the nominal data.

HoloVid belongs to a class of sensor known as a structured-light 3D scanner device.