Branching Morphogenesis
689 of 3588

Branching Morphogenesis

November 16, 2012
"Branching Morphogenesis," by Peter Lloyd Jones, biologist, and architect Jenny E. Sabin, University of Pennsylvania's Sabin+Jones LabStudio. Forget about staring at data on a computer screen; try walking through those statistics and touching them. With this illustration of the forces lung cells exert as they form capillaries, scientists and museum-goers can do just that. The 3.5 meter-tall, 3-D art installation is one of several projects by Jones and Sabin that depict large, complex datasets in new ways. "Sometimes graphing data won't tell you about its intricacies," Jones says. "This makes the whole process exciting and interactive." The sculpture depicts five snapshots from a computer simulation of lung endothelial cells pushing against and pulling on the protein matrix that surrounds them. Using the simulation data as a template, the team connected 75,000 cable zip ties, each representing a single data point, into five, 4.5 meter-wide hanging curtains for each time point. The designers built zip-tie tunnels between the curtains, so viewers could peer through them and watch how the cells' forces changed over time. This image won First Place in the Illustration category of the 2009 International Science & Engineering Visualization Challenge (SciVis) competition, sponsored by the National Science Foundation and the journal Science. The competition is held each year to celebrate the grand tradition of science visualization and to encourage its continued growth. The spirit of the competition is to communicate science, engineering and technology for education and journalistic purposes. To learn more about the competition and view all the winning entries, see the NSF SciVis Special Report (Date of Image: August 2008) Credit: Jenny E. Sabin (lead designer), Peter Lloyd Jones (lead scientist), Andrew Lucia and Annette Fierro; Sabin+Jones LabStudio, University of Pennsylvania

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