Washington Post reporter Matt McFarland writes that MIT researchers have developed a technique for printing solid and liquid materials at the same time, a development that could make producing robots faster and easier. Prof. Daniela Rus explains that the new process could make “a big difference in what kind of machines you can make.”
Popular Science reporter Kelsey Atherton writes that a new 3-D printing process developed by MIT researchers incorporates both solid and liquid materials at the same time. Atherton explains that the prototype robot developed using the process walks “with hydraulic bellows, fluid pumping in and out to turn a crankshaft that moves the legs back and forth.”
Researchers from MIT CSAIL have developed a new 3-D printing process that produces robots with no assembly required, reports Brian Mastroianni for CBS News. “MIT's new process is significant in that the production period is streamlined, with the robot's solid and liquid hydraulic parts being created in one step,” Mastroianni explains.
Boston Magazine reporter Jamie Ducharme writes that MIT researchers have developed a way to simultaneously 3-D print liquid and solid materials, “allowing them to create functional, nearly assembly-free robots.”
Wired reporter Emily Reynolds writes that researchers from MIT CSAIL have developed a new communication system that is designed to help humans and robots work together in emergency situations. The new system reduces the needs for communication by 60 percent, reducing the potential for information overload.
Wall Street Journal reporter Alexandra Wolfe profiles Prof. Cynthia Breazeal and examines her latest work developing a robot, dubbed Jibo, that can assist humans with daily tasks and serve as a companion. “I’m really thinking about social robots as an extender of our human capacity,” Breazeal explains.
Boston Magazine reporter Kyle Clauss reports that researchers from MIT CSAIL have developed a drone that uses algorithms to detect obstacle-free regions in space. “Using free-space segments is a more ‘glass-half-full’ approach that works far better for drones in small, cluttered spaces,” says MIT alumnus Benoit Landry.
Researchers from MIT CSAIL have developed an algorithm that allows drones to navigate obstacle courses, reports Kelsey Atherton for Popular Science. “As drones move away from simple remote-controlled toys and become more autonomous flying tools, programs like these will keep them flying safely through unfamiliar terrain,” explains Atherton.
Emily Reynolds reports for Wired that NASA has awarded an R5 “Valkyrie” humanoid robot to a team led by Prof. Russ Tedrake. Reynolds explains that the team “will develop algorithms to make the robot more dexterous” so that they could potentially take the place of humans during extreme space missions.
NASA has awarded two humanoid robots to research groups at MIT and Northeastern, reports Brian Mastroianni for CBS News. The robots “are seen as potential tools to aid astronauts in future Mars expeditions,” writes Mastroianni. “They could potentially assist or even replace humans in extreme environments.”
Olga Khvan reports for Boston Magazine that a team from MIT has been awarded a humanoid robot for research and development. “The R5—nicknamed Valkyrie—is a humanoid robot designed to assist during human missions to Mars by completing disaster-relief maneuvers,” writes Khvan.
A team led by Prof. Russ Tedrake has been awarded a humanoid robot from NASA to develop software for future space missions, reports Hiawatha Bray for BetaBoston. NASA is “interested in modifications that would let the machines assist human astronauts during long-duration space missions,” writes Bray.
In this video, FOX News reporter Douglas Kennedy speaks with MIT researchers about the robot they developed, called HERMES, that is controlled by a human operator and could aid rescuers in disaster situations. “We wanted to send a robot into a disaster situation so we don’t risk human life,” explains graduate student Albert Wang.
Writing for Popular Science, Mary Beth Griggs reports that researchers from MIT CSAIL have developed a robotic cube that can jump over rough terrain. The researchers hope that one day the cube "can be fitted with small cameras, making them excellent for exploring rough areas like disaster zones, or other tight spaces.”
Bret Stetka writes for The Atlantic about how MIT researchers have studied how harbor seals are able to use their whiskers to track prey. Prof. Michael Triantafyllou explains that his team’s findings could be used to develop new technologies that, for example, could “detect plumes underwater, such as in oil spills, or other plumes polluting the environment.”