“You can take all the data, selectively filter it, and look at it in a different way.”
“You’re learning about your data through visualization and interaction,” said Halle. Michael Halle, senior scientist at the IIC and instructor in radiology at Harvard Medical School and Brigham and Women’s Hospital, said this research shows that visualization technology is a critical part of the analysis and discovery process and not just a way to display data once it has been gathered, analyzed, and understood. “There’s no way of noticing this without being able to see this in 3-D,” Goodman said. Previous technology, Goodman said, doesn’t allow for careful consideration of what she described as “hierarchical” structure - essentially regions within regions - and would have obscured specific details in the molecular cloud, such as nested areas of varying density and a physical break from one area to another. Goodman and colleagues used the IIC technology to examine reams of astronomical data collected on a structure known as a giant molecular cloud. The work was led by Astronomy professor Alyssa Goodman of Harvard’s Faculty of Arts and Sciences, the Harvard-Smithsonian Center for Astrophysics, and the Initiative in Innovative Computing (IIC), of which she was the founding director.
#Yieldstar anylist pdf#
1 issue of the journal Nature, is being illustrated in the journal’s online version through new three-dimensional Portable Document Format (PDF) technology that will allow readers to view the article’s key graphics using free PDF software already commonly found on computers. New computer visualization technology developed by the Harvard Initiative in Innovative Computing has helped astrophysicists understand that gravity plays a larger role than previously thought in deep space’s vast, star-forming molecular clouds.
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