MIT researchers have unveiled the latest iteration of their robotic cheetah that can navigate without the use of cameras or sensors and could be used for disaster response, reports Jordan Graham for The Boston Herald. “We’re mostly thinking about sending robots instead of humans where potential hazards like toxicity or radiation or dangers can be,” explains Prof. Sangbae Kim.
Writing for Popular Mechanics, Eric Limer highlights how the updated Cheetah 3 robot can navigate by feeling its way around its environment and can leap up onto tables. Limer explains that the robotic cheetah is, “able to rear back on its hind legs, leap into the air, and make a solid landing on a platform much taller than it is.”
TechCrunch reporter Brian Heater writes that Prof. Sangbae Kim and his research group robotic cheetah can now run up the stairs and walk over debris without the use of cameras or sensors. Heater explains that the robot, “utilizes a pair of new algorithms — contact detection and model-predictive control — which help it recover its balance in the case of slippage.”
Verge reporter Rachel Becker writes that MIT researchers have developed a robotic cheetah that can run up the stairs and navigate without the use of cameras. Becker explains that the Cheetah 3 robot navigates its environment by touch, which could allow it to, “venture where humans can’t — like deep inside power plants for inspections.”
BBC Click reporter Gareth Mitchell speaks with postdoc Oggi Rudovic about his work developing a system that allows autism therapy robots to help teach children how to decipher different emotions. Rudovic explains that the technology can “assist the therapist and also to make the whole therapy process engaging for the child.”
Popular Mechanics reporter David Grossman writes that MIT researchers have developed a new system that helps robots used in autism therapy better estimate how engaged a child is during an interaction. Grossman explains that, “using the personalized algorithm, the robot was able to correctly interpret a child's reaction 60 percent of the time.”
MIT researchers have created a new fabrication technique to create intricate, 3-D printed magnetic options that react to magnetic fields hitting them at different angles, reports Mark Wilson for Co.Design. In the future the structures, “could be placed in the human body, manipulated via wireless, harmless magnetism, and carry out intricate tasks like on-site drug delivery.”
Fast Company reporter Steven Melendez writes that CSAIL researchers have created a new system that allows a robot to detect human brainwave patterns so it knows when it made a mistake. Melendez explains that, “Teaching robots to understand human nonverbal cues and signals could make them safer and more efficient at working with people.”
MIT researchers have developed a system that allows people to use a combination of brain waves and muscle signals to stop and redirect a robot, writes John Biggs for TechCrunch. “The machine adapts to you, and not the other way around,” explains graduate student Joseph DelPreto.
Prof. Xuanhe Zhao and his colleagues have designed a 3D printer that can create shape-shifting soft materials. The group purposefully created the “materials and the method to be user friendly to enable a wide range of applications,” reports Fiona McMillan for Forbes.
Engadget reporter Jon Fingas writes that MIT researchers have developed a tiny computer chip small enough to fit on a honeybee-sized drone that can help the drone navigate. The technology could eventually be applied to, “smart pills that navigate to where they're needed, or virtually any vehicle that may need to last for a very long time on one battery charge.”
Prof. Xuanhe Zhao speaks with WBUR about how he and his colleagues have developed a new technique to create soft, pliable structures that could carry out medical procedures within the human body. “Since the human body is soft, it's beneficial to develop a device that has a similar rigidity as soft tissues in the human body,” explains Zhao.
CNBC reporter Lora Kolodny writes about Spyce kitchen, an MIT startup that uses both humans and robots to make what it calls “complex meals.” “Spyce has a stated goal of not replacing human chefs, explains Kolodny, “but helping them work faster, and make delicious meals more consistently, in its restaurants.”
Boston Herald reporter Jordan Graham writes about Ori, a Media Lab spinout that aims to make apartments more functional and spacious through the use of robotic furniture. Founder and CEO Hasier Larrea, an MIT alumnus, explains that by using technology and robotics, “you can make a 300-square-foot apartment be much more functional than a traditional static 400-square-foot apartment.”
In this video, Mashable highlights a new method developed by MIT researchers to 3-D print soft robots that can crawl, fold and carry a pill. The team hopes the structures, which can be controlled with a magnet, could eventually be used as a medical device to take tissue samples or deliver treatments.