Popular Science reporter Rob Verger writes that MIT researchers have developed a new mechanical system that can help humans lift heavy objects. “Overall the system aims to make it easier for people and robots to work together as a team on physical tasks,” explains graduate student Joseph DelPreto.
Bloomberg News reporter Carol Massar spotlights how MIT researchers have developed a robot that can identify and sort recyclables. “The system includes a soft Teflon hand that uses tactile sensors to detect the size of an object and the pressure needed to grasp it,” Massar reports. “From there it can determine if it’s made of metal, paper or plastic.”
Scientific American reporter Jeremy Hsu highlights how CSAIL researchers have developed a robot that can automatically sort recycling. The robot “uses soft Teflon ‘fingers,’ which have fingertip sensors to detect object size and stiffness,” Hsu explains.
In an article for Wired, K. Gretchen Greene, a research affiliate at the Media Lab, argues that the government’s proposed $2 trillion infrastructure plan should include robots. New technologies “offer the possibility of completing projects we otherwise couldn't afford, minimizing disruption, improving safety, and optimizing systems in ways humans working alone could not,” writes Greene.
MIT researchers have developed tiny robots powered by magnetic fields that can be used to bring drugs nanoparticles from the bloodstream into a tumor or disease site in the human body, reports the Xinhua news agency.
MIT researchers have developed a new particle robotics system inspired by biological cells that can transport objects placed in their midst and squeeze through small gaps, reports Kaveh Waddell for Axios. “The particle robotics system is a departure from traditional robots, where a part failure generally breaks the entire thing,” Waddell explains.
Fast Company reporter Mark Wilson writes that CSAIL researchers have developed a new soft robotic gripper that is modeled after a Venus flytrap. “Dubbed the Magic Ball, it’s a rubber and plastic structure that can contract around an object like an origami flower,” Wilson explains.
CSAIL researchers have developed a new robotic gripper that contains an origami skeleton, enabling the device to open and close like a flower and grasp a variety of delicate and heavy objects, reports James Vincent for The Verge “By combining this foldable skeleton with the soft exterior, we get the best of both worlds,” explains Prof. Daniela Rus, director of CSAIL.
TechCrunch reporter Brian Heater writes that researchers at CSAIL and Harvard have developed a soft robotic gripper that can both handle delicate objects and lift items up to 100 times its own weight. “The gripper itself is made of an origami-inspired skeletal structure, covered in either fabric or a deflated balloon,” explains Heater.
In this video, HuffPost highlights a robotic cheetah created by MIT researchers that can perform a backflip from a standing position. HuffPost notes that the robot has a “range of motions, making it agile enough to pick itself up if knocked to the ground.”
Forbes reporter Eric Mack writes about the latest iteration of MIT’s robotic cheetah: A new miniature version that weighs 20 pounds. “The cheetah has heavyweight skills like walking over uneven terrain, picking itself up after a fall or a swift kick and of course, its ability to pull off a 360-degree reverse flip from a standing position,” Mack explains.
Washington Post reporter Peter Holley writes that MIT researchers have created a mini robotic cheetah that can perform a backflip and walk right-side up or upside down. “Legged robots will have a variety of uses where human or animal-like mobility is necessary, but it may be unsafe to send a person,” explains technical associate Benjamin Katz.
Fortune reporter Alyssa Newcomb writes that MIT researchers have developed a 20-pound robotic cheetah that can successfully execute a backflip and nail the landing. “The robotic mini cheetah can also gallop over uneven terrain twice as fast as the average human,” writes Newcomb.
A miniature version of the robotic cheetah developed by MIT researchers provides a testbed for researchers to experiment with new maneuvers like backflips, reports David Freeman for NBC Mach. “Having a platform that's relatively small and safe and cheap makes running experiments very easy,” says technical associate Benjamin Katz, “you don't have to worry about breaking the robot or getting hurt.”
MIT researchers have developed a miniature robotic cheetah that can perform a wide range of maneuvers, reports Brian Heater for TechCrunch. “The robot is capable of running up to five miles per hour, can perform a 360-degree backflip from a standing position and will right itself quickly after being kicked to the ground,” Heater explains.