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A still image from a three-dimensional video rendering shows a key protein involved in DNA repair in many organisms. Here, ...
The variational problem is solved using a modified version of the Gauss–Seidel algorithm that exploits the spatio-temporal structure of the angiography problem. The 3D time series results are ...
In biology textbooks and beyond, the human genome and DNA therein typically are taught in only one dimension. While it can be ...
Large-scale 3D reconstruction from imagery has received much attention from the computer vision community. However, recovering 3D structures from 2D images is a notoriously complex process that ...
A new hybrid microscope for the first time allows scientists to simultaneously image the full 3D orientation and position of an ensemble of molecules, such as labeled proteins inside cells. ( Nanowerk ...
From left: Charles Christoffer, Genki Terashi and Daisuke Kihara of Purdue University launched the high-tech software startup Molecular Intelligence to determine 3D structures of biomolecules. The ...
Improvements in three-dimensional (3D) scanning have enabled quick and accurate scanning of 3D objects, including cultural heritage objects, as 3D point cloud data. However, conventional edge ...
3D reconstruction uses an end-to-end deep learning framework that takes a single RGB color image as input and converts the 2D image to a 3D mesh model in a more desirable camera coordinate format.