HuffPost
The Huffington Post reports on how MIT researchers have developed a robotic cheetah that can run and jump, untethered.
The Huffington Post reports on how MIT researchers have developed a robotic cheetah that can run and jump, untethered.
Christopher Gearon of U.S. News & World Report profiles freshman Emily Young. “An ACL injury led Emily Young to become ‘fascinated’ with biomedical engineering and biomechanics," writes Gearon.
USA Today’s Kristin Musulin reports on a new algorithm developed by MIT researchers that allows their cheetah robot to operate untethered. “This is the first time we show that an electrically powered robot can run and jump over one-foot height obstacles,” says Professor Sangbae Kim.
“Researchers at MIT have built a four-legged robot that runs like the super-fast spotted feline and can even run on its own power,” writes Amina Khan for The Los Angeles Times about MIT’s robotic cheetah. “[T]he researchers think that it could eventually reach speeds of 30 miles per hour.”
Dominique Mosbergen reports for The Huffington Post on MIT’s robotic cheetah: “[T]he researchers behind its development have devised an algorithm that allows their creation not just to run at speeds of up to 10 mph but also to jump over obstacles—all without being tethered to anything.”
Brian Mastroianni reports for Fox News on the new algorithm developed by Professor Sangbae Kim’s team that gives its robotic cheetah the ability to run and jump over obstacles untethered. “Our goal is to use this kind of robot to save lives in a disaster situation,” said Kim.
Professor Sangbae Kim and his team in MechE have developed an algorithm that allows a four-legged cheetah robot to run up to 10 mph and jump over obstacles untethered. “The Cheetah's new algorithm improvements make it more agile and able to handle real-life terrain,” writes Francie Diep.
MIT researchers have developed a robotic cheetah that can run at 10 miles per hour and jump more than a foot in the air, reports Lily Hay Newman for Slate. “Breakthroughs in the cheetah’s development could be applicable to other autonomous robots or things like prosthetics,” she writes.
“[B]y current robotics standards this MIT creation is a pretty sleek approximation of a cheetah,” writes Rachel Feltman for The Washington Post about Professor Sangbae Kim’s robotic cheetah. A new algorithm could eventually allow the robot to reach speeds of 30 miles per hour.
“Leave it to researchers from MIT to come up with a complex algorithm that’s specific to predatory motions like running, leaping, and bounding that can be programmed into a robot,” writes Steve Annear for Boston Magazine about the robotic cheetah developed by Professor Sangbae Kim’s team.
Time features this video of the robot cheetah developed by Professor Sangbae Kim’s team. The researchers developed an algorithm that allows the four-legged robot to run untethered up to 10 miles per hour and jump over obstacles.
CNET reporter Stephen Beachman highlights the new robotic glove that adds two extra fingers to the human hand. The fingers are supposed to act and react like a natural extension of your hand and allow the user to pick up much larger and heaver than a normal human hand could, Beachman reports.
Kadhim Shubber reports on a new glove created by Professor Harry Asada with two extra fingers that responds intelligently to one’s movements. "You do not need to command the robot, but simply move your fingers naturally,” said Asada. “Then the robotic fingers react and assist your fingers."
“Researchers at MIT have created a robotic hand device that, rather than simply replacing one's grip, enhances its reach with two extra fingers,” reports NBC on a new device developed by Professor Harry Asada’s team.
The BBC reports on a new technology from Professor Harry Asada’s team that provides a robotic extension to the human hand responsive to movement. The extension—essentially two extra fingers—can be used to grasp, leaving the hand free for other tasks.