MIT researchers are using magnets to help improve control of prosthetic limbs, reports Emmett Smith for Mashable. “The researchers inserted magnetic beads into muscle tissue to track the specific movements of each muscle,” reports Smith. “That information is then transferred to the bionic limb, giving the users direct control over it.”
Professor Xuanhe Zhao and his colleagues have developed a new soft robotic prosthetic hand that offers the wearer more tactile control. “You can use it to grab something as thin and fragile as a potato chip, or grasp another hand in a firm-but-safe handshake,” writes Mark Wilson for Fast Company. “By design, this rubbery, air-filled hand is naturally compliant.”
Dezeen reporter Rima Sabina Aouf writes that MIT researchers have created an inflatable prosthetic hand that can be produced for a fraction of the cost of similar prosthetics. “The innovation could one day help some of the 5 million people in the world who have had an upper-limb amputation but can't afford expensive prostheses.”
Engineers at MIT have developed a soft, inflatable, neuroprosthetic hand that allows users to carry out a variety of tasks with ease, reports Emmett Smith for Mashable. “People who tested out the hand were able to carry out quite complex tasks, such as zipping up a suitcase and pouring a carton of juice.”
Research scientist Allan Adams speaks with PBS NewsHour reporter Isabella Isaacs-Thomas about the underwater robot he and his colleagues at the Woods Hole Oceanographic Institute developed to explore the mysteries of the ocean. “We [designed the radiometer] because we really want to see, how does the light interact with the biology?," says Adams. "How does the light drive — and not drive — the biological dynamics of this massive migration?”
Reuters reporter Timothy Aeppel spotlights a new report by MIT researchers examining how automation is spreading to small and medium-sized factories in America. “Among the 34 companies with 500 employees or fewer in Ohio, Massachusetts and Arizona that the MIT researchers visited in their project, only one had bought robots in large numbers in the last five years,” writes Aeppel, “and that was an Ohio company that had been acquired by a Japanese multinational which pumped in money for the new automation.”
Forbes reporters Amy Feldman and Aayushi Pratap spotlight Vicarious Surgical, a startup founded by MIT graduates that is developing a tiny robot paired with a VR headset for abdominal surgeries.
Researchers at MIT CSAIL have developed a robotic arm that can put a vest on a human. “The promise of such technology is clear: helping people with mobility issues perform tasks that many of us take for granted,” writes Brian Heater for TechCrunch.
Researchers at MIT have developed a robot that can slide a vest onto a human arm, “which is an early but important step in creating a robot that could completely dress an aging or disabled person,” writes Mark Wilson for Fast Company. “In this work, we focus on a planning technique,” explains PhD candidate Shen Li. “If I dress a kid or adult, they might have different reactions. So you have to predict what they’ll do.”
Wall Street Journal reporters Angus Loten and Kevin Hand spotlight how MIT researchers are developing robots with humanlike senses that will be able to assist with a range of tasks. GelSight, a technology developed by CSAIL researchers, outfits robot arms with a small gel pad that can be pressed into objects to sense their size and texture, while another team of researchers is “working to bridge the gap between touch and sight by training an AI system to predict what a seen object feels like and what a felt object looks like.”
MIT researchers have developed a new robot that can help locate hidden items using AI and wireless technologies, reports Benoit Morenne for The Wall Street Journal. “The latest version of the robot has a 96% success rate at finding and picking up objects in a lab setting, including clothes and household items,” writes Morenne. “In the future, this home helper could also retrieve a specific wrench or screwdriver from a toolbox and assist a human in assembling a piece of furniture.”
Kate Darling, a research specialist at the Media Lab, speaks with Ira Flatow on Science Friday about “the historical lessons of our relationships with animals, and how they could inform our legal, ethical, and even emotional choices about robots and AI.”
TechCrunch reporter Devin Coldewey spotlights MIT startup ISEE, which is developing a robotic yard truck that could be used to move containers in shipping yards. Coldewey writes that the ISEE trucks could “transport containers (unmodified, it is important to note) to and from locations in the yards, backing the 50-foot trailer into a parking spot with as little as a foot of space on either side.”
MIT researchers have developed a new robot with a tactile sensing finger that can find objects buried in sand or rice, reports Emmett Smith for Mashable. “The robot could eventually perform other underground duties like identifying buried cables or disarming bombs or land mines.”
An electric, autonomous boat developed by MIT researchers is being tested in the canals of Amsterdam as part of an effort to ease traffic, reports Aleksandar Furtula and Mike Corder for the AP. The Roboat project is aimed at developing “new ways of navigating the world’s waterways without a human hand at the wheel,” write Furtula and Corder. “The vessels are modular so they can be easily adapted for different purposes, carrying cargo or workers.”