CSAIL researchers have developed a soft robotic fish that can unobtrusively observe marine wildlife, writes NPR’s Colin Dwyer. Known as SoFi, the robot is “more likely to get close to aquatic life acting naturally,” explains Dwyer, “which could mean its camera has a better chance at snapping some candid shots to pass on to marine biologists.”
A study co-authored by researchers at MIT finds that hospitalizations only cause about 4 percent of bankruptcies among nonelderly adults in the U.S., reports Tom Murphy of the Associated Press. Researchers gathered data from “more than a half million adults under 65 in California who had a hospitalization between 2003 and 2007 that wasn't tied to childbirth.”
“SoFi”, a robotic fish operated by a hydraulic pump and created from pieces made by a 3-D printer in CSAIL, could be the key to discretely observing marine life, writes Deborah Netburn of The Los Angeles Times. “I hope we can begin to peek into the secret lives of underwater creatures," said CSAIL director Daniela Rus.
Using sound waves manipulated by a Super Nintendo controller, CSAIL’s “SoFi” robotic fish “may provide biologists a fish’s-eye view of animal interactions in changing marine ecosystems,” writes JoAnna Klein for The New York Times. SoFi is fairly inexpensive and hardly disturbs surrounding marine life, making it a promising solution for underwater observation.
Mary Beth Griggs writes for Popular Science about a new Nature study where researchers have identified cold hydrogen dating back to 180 million years post-big bang. “Some of the radiation from the very first stars is starting to allow hydrogen to be seen,” says Alan Rogers of the Haystack Observatory.
The Nature Podcast, hosted by Adam Levy and Shamini Bundell, highlights research from the Haystack Observatory and Prof. Li-Huei Tsai’s findings around Alzheimer’s and its connection to brain waves.
A robotic carpenter developed by CSAIL is pre-cutting wood for flat-pack furniture, making assembly safer and more efficient. Called AutoSaw, the idea “was not to replace human carpenters but to allow them to focus on more important tasks such as design,” writes Dave Lee for the BBC.
David Grossman of Popular Mechanics writes about AutoSaw, a system developed by CSAIL researchers that assists in custom build carpentry projects. The system is designed “to split the difference between machine-built quality and unique customization” and requires human assembly after the pieces are cut, explains Grossman.
Autosaw, the robotic carpenter developed by researchers from CSAIL, can cut pieces for furniture building, as long as you provide the raw materials. “It’ll cut pieces to shape, drill the necessary holes and even move them around the workshop for you,” writes Thomas Tamblyn for Huff Post.
Alan Rogers of MIT's Haystack Observatory co-authored a study that identifies the earliest traces of hydrogen in the universe. The gas is “from 180 million years after the Big Bang,” writes Elise Takahama for The Boston Globe, which suggests that stars would have appeared around this time, creating a “cosmic dawn.”
AutoSaw, developed in CSAIL, is “a new system of robot-assisted carpentry that could make the creation of custom furniture and fittings safer, easier, and cheaper,” writes James Vincent of The Verge. As postdoc Jeffrey Lipton explains, AutoSaw “shows how advanced robotics could fit into the workflow of a carpenter or joiner.”
Using a modified Roomba vacuum, CSAIL researchers are able to autonomously cut pieces of wood for assembling furniture, writes Leah Crane for New Scientist. “Two lifting robots pick up a piece of wood, bring it over to a chop saw, and hold it in place while the saw cuts it to size,” Crane explains.
CSAIL postdoc Jeffrey Lipton, along with Prof. Daniela Rus and PhD candidate Adriana Schulz, has developed AutoSaw, a software-driven carpentry system that readies wood pieces for hand assembly, writes Mark Wilson of Co.Design. “We’re moving toward a new manufacturing revolution with 3D printers and robots to make objects with unprecedented complexity,” says Schulz.
Research published in Science demonstrates the ability of photons to bind together in a way previously thought impossible – creating a new form of light. “The photon dance happens in a lab at MIT where the physicists run table-top experiments with lasers,” writes Marissa Fessenden for Smithsonian. “Photons bound together in this way can carry information – a quality that is useful for quantum computing.”
Writing for Newsweek, Katherine Hignett reports that for the first time, scientists have observed groups of three photons interacting and effectively producing a new form of light. “Light,” Prof. Vladan Vuletic, who led the research, tells Hignett, “is already used to transmit data very quickly over long distances via fiber optic cables. Being able to manipulate these photons could enable the distribution of data in much more powerful ways.”