NY Post reporter Asia Grace writes that MIT researchers have found that patients are comfortable with allowing robotic assistants perform medical evaluations, as part of an effort to help reduce the spread of Covid-19. “People are very positive and accepting of robotic systems in health-care settings, particularly during the pandemic,” says Prof. Giovanni Traverso.
UPI reporter Brooks Hays writes that MIT researchers have developed a new technique for turning plastic into a wearable material. “Engineers at MIT have managed to weave polyethylene into fibers that absorb and evaporate water more quickly than cotton, nylon, polyester and other common textiles,” writes Hays. “The authors of the new paper hope their technology will incentivize plastic recycling.”
BBC News reporter Helen Briggs writes that MIT researchers have developed a technique to create fabrics from polythene, a plastic found in food packaging and plastic bags. "There's no reason why the simple plastic bag cannot be made into fibre and used as a high-end garment," says research scientist Svetlana Boriskina. "You can go literally from trash to a high-performance garment that provides comfort and can be recycled multiple times back into a new garment."
Graduate student Crystal Lee speaks with Slate reporter Rebecca Onion about a new study that illustrates how social media users have used data visualizations to argue against public health measures during the Covid-19 pandemic. “The biggest point of diversion is the focus on different metrics—on deaths, rather than cases,” says Lee. “They focus on a very small slice of the data. And even then, they contest metrics in ways I think are fundamentally misleading.”
MIT scientists have demonstrated a plastic polymer cable that can transmit data 10 times as fast as USB, reports Payal Dhar for IEEE Spectrum. “For newer standards aiming at much higher data rates, we see the cables getting much thicker, more expensive, and commonly short [because of] technical challenges,” says Prof. Ruonan Han. “We hope this research could [enable] much higher speed for our needs.”
Mashable reporter Jordan Aaron spotlights how MIT researchers have developed insect-sized drones that can flap their wings over 500 times per second, allowing them to withstand collisions. The drones are “powered by a small actuator, which gives them the ability to flap so fast.”
Graduate student Ashley Beckwith speaks with BBC Radio 5 about her work developing a new concept for growing wood in the lab, as part of an effort to supplement traditional forestry methods. "We dedicate a lot of resources to growing whole plants, when all we use really is a very small portion of the plant,” says Beckwith. “So somehow we needed to figure out a more strategic way to reproduce materials that isn't so reliant on the land."
Prof. Kevin Chen speaks with NPR about his work developing a new microdrone inspired by how an insect flaps its wings. “Because our soft power robot is very robust, of course, we can do interesting maneuvers, such as doing a somersault, we can survive collisions, et cetera,” he explains.
TechCrunch reporter Brian Heater are developing a new prototype for a robot that can transform from soft to hard. “Combining the two fields could go a ways toward building safer collaborative robots for interacting with human workers,” writes Heater.
The Economist spotlights how MIT researchers created a virtual technique to decipher the contents of a letter that was sealed 300 years ago. The letter was originally sealed by its sender using the historical practice of securing correspondence called letterlocking. The new virtual technique “seems to hold plenty of promise for future research into a fascinating historical practice.”
Speaking with WHDH, Prof. Kevin Cheng explains how he was inspired by the agility of insects to create tiny new drones that are acrobatic and resilient. “Think about a scenario, for example, a building collapse with people trapped inside, and what we’re thinking of is sending a swarm of drones into this collapsed building to search for survivors,” says Chen. “That’s something very difficult for traditional drones.”
Writing for Boston.com, Mark Gartsbeyn highlights how MIT researchers have “developed tiny drones that can fly, dodge, and weave like actual insects.”
MIT researchers have developed tiny, agile drones with insect-like wings, reports John Biggs for Gizmodo. “The goal is to use these tiny, soft drones to explore close spaces where rigid drones will break on contact with hard surfaces,” writes Biggs.
A new imaging technique created by researchers from MIT and other institutions has been used to shed light on the contents of an unopened letter from 1697, writes Matt Simon for Wired. “With fancy letterlocking techniques, you will forcibly rip some part of the paper, and then that will become detectable,” says Prof. Erik Demaine, of the method used to seal the letter.
TechCrunch reporter Brian Heater spotlights how MIT researchers have designed insect-sized drones that can withstand collisions. Heater notes that potential applications for the new drones include everything from “simple inspections currently being handled by larger models to pollination and search and rescue.”