Hosted by IDTechEx
Tomorrow's technology, today's passion.
Direct from the experts at IDTechEx.
HomeEventsReportsAdvertiseTVCareersAbout UsSign-up or LoginIDTechExTwitterFacebookLinkedInGoogle+YoutubeRSSForward To Friend
Posted on July 27, 2017

New 3D technique uses water and robotics

Robotics 2016-2026
An international group of researchers developed a technique that results in more accurate 3D scanning for reconstructing complex objects than what currently exists. The innovative method combines robotics and water.
 
"Using a robotic arm to immerse an object on an axis at various angles, and measuring the volume displacement of each dip, we combine each sequence and create a volumetric shape representation of an object," says Prof. Andrei Scharf, of Ben-Gurion University of the Negev, Department of Computer Science. "The key feature of our method is that it employs fluid displacements as the shape sensor," Prof. Scharf explains. "Unlike optical sensors, the liquid has no line-of-sight requirements. It penetrates cavities and hidden parts of the object, as well as transparent and glossy materials, thus bypassing all visibility and optical limitations of conventional scanning devices."
 
The researchers used Archimedes' theory of fluid displacement -- the volume of displaced fluid is equal to the volume of a submerged object -- to turn the modeling of surface reconstruction into a volume measurement problem. This serves as the foundation for the team's modern, innovative solution to challenges in current 3D shape reconstruction.
 
The group demonstrated the new technique on 3D shapes with a range of complexity, including an elephant sculpture, a mother and child hugging and a DNA double helix. The results show that the dip reconstructions are nearly as accurate as the original 3D model.
 
Portal
The new technique is related to computed tomography -- an imaging method that uses optical systems for accurate scanning and pictures. However, tomography-based devices are bulky and expensive and can only be used in a safe, customized environment.
 
Prof. Scharf says, "Our approach is both safe and inexpensive, and a much more appealing alternative for generating a complete shape at a low-computational cost, using an innovative data collection method."
 
Source and top image: American Associates, Ben-gurion University of the Negev
Learn more at the next leading event on the topic: Medical Innovations Forum USA 2017 External Link on 13 Nov 2017 in Santa Clara Convention Center, CA, USA hosted by IDTechEx.