![]() ![]() The idea to apply folding properties to underwater sample collection began in 2014 when first author Zhi Ern Teoh took a class from Chuck Hoberman, a Wyss associate faculty member and Pierce Anderson Lecturer in Design Engineering at the Harvard Graduate School of Design, about creating folding mechanisms through computational means. These deep-sea organisms, some being thousands of years old, deserve to be treated with a similar gentleness when we’re interacting with them,” said collaborating author David Gruber, who is a 2017‒2018 Radcliffe Fellow, National Geographic Explorer, and professor of biology and environmental science at Baruch College, CUNY. “We approach these animals as if they are works of art: Would we cut pieces out of the ‘Mona Lisa’ to study it? No - we’d use the most innovative tools available. The research is reported in Science Robotics. ![]() Paulson School of Engineering and Applied Sciences (SEAS), and Radcliffe Institute for Advanced Study safely traps delicate sea creatures inside a folding polyhedral enclosure and lets them go without harm using a novel, origami-inspired design. Now, a new device developed by researchers at Harvard University’s Wyss Institute, John A. However, many of those organisms - like jellyfish, squid, and octopuses - are soft-bodied and difficult to capture for study with existing underwater tools, which too frequently damage or destroy them. It is estimated to hold up to a million species that have yet to be described. The open ocean is the largest and least-explored environment on Earth.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |