Tech Crunch reporter Brian Heater spotlights how CSAIL researchers have unveiled a testing simulator for soft robotic designs. “It offers some interesting insights into how compliant robots can adapt to different environmental changes,” writes Heater.
Forbes contributor Adi Gaskell writes that a new study by MIT researchers finds increased investment in robotics and automation-based technologies as populations age. Gaskell notes that: “the data shows a strong relationship between the age of the workforce, which was defined as the ratio of workers aged over 56 and those aged between 21 and 55, and the adoption of robotics in 60 different countries.”
Joseph Coughlin, director of the MIT AgeLab, and Luke Yoquinto, a research associate at the AgeLab, emphasize the importance of increased investment in aging-related research in an article for The Boston Globe. Coughlin and Yoquinto call for “ramping up age-related disease research across the board: not just in health care and robotics, but also in smart-home tech, user design, transportation, workplace technologies, education and training, and nutrition. R&D in these fields won’t just improve lives; it will also strengthen tomorrow’s economy.”
Writing for The Wall Street Journal, Prof. Kate Kellogg explores how managers can more effectively help their employees transition to using new technologies. “Managers need to realize that introducing emerging technologies such as artificial intelligence, data analytics and robotics aren’t straightforward,” writes Kellogg. “Managers who hope to successfully implement these technologies need to focus on issues of employee status and roles, and the amount of new work that will need to be done.”
MIT researchers developed a new control system for the mini robotic cheetah that allows the robot to jump and traverse uneven terrain, reports Jules Suzdaltsev for Mashable. “There’s a camera for processing real-time input from a video camera that then translates that information into body movements for the robot,” Suzdaltsev explains.
Popular Science reporter Charlotte Hu writes that MIT researchers have simulated an environment in which socially-aware robots are able to choose whether they want to help or hinder one another, as part of an effort to help improve human-robot interactions. “If you look at the vast majority of what someone says during their day, it has to do with what other [people] want, what they think, getting what that person wants out of another [person],” explains research scientist Andrei Barbu. “And if you want to get to the point where you have a robot inside someone’s home, understanding social interactions is incredibly important.”
MIT researchers have developed a new machine learning system that can help robots learn to perform certain social interactions, reports Brian Heater for TechCrunch. “Researchers conducted tests in a simulated environment, to develop what they deemed ‘realistic and predictable’ interactions between robots,” writes Heater. “In the simulation, one robot watches another perform a task, attempts to determine the goal and then either attempts to help or hamper it in that task.”
TechCrunch writer Devin Coldewey reports on the ReSkin project, an AI project focused on developing a new electronic skin and fingertip meant to expand the sense of touch in robots. The ReSkin project is rooted in GelSight, a technology developed by MIT researchers that allows robots to gauge an object’s hardness.
Xin Liu SM ’17, art curator for the Media Lab’s Space Exploration Initiative, speaks with Los Angeles Times reporter Deborah Vankin about her work “Living Distance,” which is on display as part of the “Synthetic Wilderness” installation at Culver City’s Honor Fraser Gallery. “‘Living Distance’ is both a personal fantasy and a serious space mission,” says Liu. “A wisdom tooth is sent to outer space and back down to Earth again. Carried by the crystalline robotic sculpture, the tooth becomes a newborn entity in outer space.”
Reuters reporter Toby Sterling spotlights how MIT researchers have been working with Amsterdam’s Institute for Advanced Metropolitan Solutions to develop a self-driving watercraft for transporting passengers, goods and trash through the canals. “We have a lot of open water available in the canals,” says Stephan van Dijk, Amsterdam’s Institute for Advanced Metropolitan Solutions Innovation Director. “So, we developed a self-driving, autonomous ship to help with logistics in the city and also bringing people around.”
Brady Knight '16, Michael Farid '16, Kale Rogers '16, and Luke Schlueter '16 co-founded Spyce, an automated health food restaurant, reports Alie Ward for The Henry Ford’s Innovation Nation. “I started thinking about how we are going to make healthy food more accessible, more affordable and more available and we had this idea that if we used automation, we could help make it a lot more efficient therefore more accessible,” says Faird.
TechCrunch reporter Brian Heater spotlights RFusion, a fully-integrated robotic arm developed by MIT researchers that “uses an RF antenna and camera mounted to an arm to find lost objects.”
Graduate student Ken Nakagaki’s tiny transformable robots, called Hermits, have changeable mechanical shells that allow the robots to acquire new capabilities, reports Mark Wilson for Fast Company. The Hermits project has been selected as the winner of Fast Company’s 2021 Innovation by Design Awards in the Student category.
Forbes reporter Aayushi Pratap spotlights Vicarious Surgical, an MIT startup and surgical robot company aimed at making “abdominal surgery faster, easier and subject to fewer complications, starting with hernia repairs.”
Here & Now’s Scott Tong speaks with Gideon Gil of STAT about a new technique for amputation surgery developed by researchers from MIT and Brigham and Women’s Hospital that recreates muscle connections and restore the brain’s ability to sense where and how one’s limbs are moving.