3D Scanner: Difference between revisions
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==Overview== | ==Overview== | ||
[[Image:Kinect.jpg|thumb|400px|Kinect 3D Scanner]] | [[Image:Kinect.jpg|thumb|400px|Kinect 3D Scanner]] | ||
3D Scanners enable near-instantaneous input of spatial data into digital systems. | 3D Scanners enable near-instantaneous input of spatial data into digital systems. | ||
The technology is currently undergoing a massive flourishing of innovation as the underlying hardware becomes ubiquitous. As a part of the GVCS 50, it enables a suite of powerful applications. | The technology is currently undergoing a massive flourishing of innovation as the underlying hardware becomes ubiquitous. As a part of the GVCS 50, it enables a suite of powerful applications. | ||
'''Applications''' | '''Applications''' | ||
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*Robotic Systems | *Robotic Systems | ||
*Training | *Training | ||
==Details== | |||
{{Video}} | |||
==Product Ecology== | ==Product Ecology== | ||
Revision as of 16:21, 20 September 2011
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Overview
3D Scanners enable near-instantaneous input of spatial data into digital systems. The technology is currently undergoing a massive flourishing of innovation as the underlying hardware becomes ubiquitous. As a part of the GVCS 50, it enables a suite of powerful applications.
Applications
- CAD
- Rapid Prototyping
- Workshop Control
- Automation Programming
- Robotic Systems
- Training
Details
Product Ecology
Uses
- UPS - Power
- Motor - Articulation
- 3D Printer - Case
Works with
- 3D Printer - Cloning
- Sawmill - Lumber scanning.
- Tractor - Automation navigation
- Industrial Robot - Sensing, teleoperation
Components
See Also
