Neel Patel writes for Wired about how MIT researchers have trained their robotic cheetah to detect and leap over obstacles. The robot “estimates the height, size, and distance of objects in its path, and adjusts its approach to prepare a jump and safe landing—all without slowing down.”
Writing for The Washington Post, Rachel Feltman describes how the MIT robotic cheetah can jump over obstacles up to 18 inches tall. “The robot uses an algorithm to gauge the height and distance of upcoming obstacles, so it can clear them without breaking its (record-breaking) stride,” Feltman explains.
Victor Luckerson writes for TIME about the robotic cheetah created by a team of MIT researchers that can “autonomously leap tall obstacles in a single bound.” Luckerson explains that, “the cheetah can clear hurdles as high as 18 in. (46 cm) at an average running speed of 5 m.p.h. (8 km/h).”
Newsweek reporter Felicity Capon writes about the robotic cheetah developed by MIT researchers that can jump over hurdles autonomously. The cheetah uses an onboard mapping system to detect obstacles and estimate their height and distance.
MIT researchers have developed a robotic cheetah that can jump over obstacles while running, reports Sandrine Ceurstemont for New Scientist. “The robot spots obstacles in its path with its built-in lidar system, which can build up a picture of the object in its way from reflected laser light,” explains Ceurstemont.
MIT researchers have trained a cheetah robot they developed to make “flying leaps” over obstacles, reports Devin Coldewey for NBC News. The researchers behind the robotic cheetah aim to “build a ‘high-speed locomotion platform’ with the fastest land animal as its inspiration.”
The robotic cheetah developed by MIT researchers can now autonomously jump over obstacles, reports Nitya Rajan for The Huffington Post. “This is the first time a four-legged robot has used laser sensors to gauges the distance and height of obstacles in its way to plan its jump,” writes Rajan.
According to Fox News, MIT’s cheetah robot can now jump over obstacles up to 18 inches tall, which is more than half the robot’s height. “Our goal is to use this kind of robot to save lives in a disaster situation,” explains Professor Sangbae Kim.
Allison Pohle reports for Boston.com on new algorithms that allow MIT’s robotic cheetah to jump over obstacles autonomously. “The cheetah first practiced its skills on a treadmill in a lab,” writes Pohle. “It then moved on to an indoor track, and is now being trained to jump while running on the grass.”
James Temperton writes for Wired about new developments in robotics, highlighting the MIT cheetah robot that can now autonomously jump over hurdles and the miniature origami robots developed by MIT researchers that can fold self-assemble, walk, swim and dissolve.
Carl Franzen reports for Popular Science that the researchers behind MIT’s robotic cheetah have developed new algorithms that allow the robot to detect and jump over obstacles. “Now that the Cheetah 2 is capable of trotting, galloping, and jumping, it might be time to crown a new king of the concrete jungle,” writes Franzen.
The robotic cheetah developed by MIT researchers is now capable of jumping over obstacles without human assistance, reports Nidhi Subbaraman for BetaBoston. “As the robot approaches and detects a hurdle, algorithms plan its jumping trajectory unaided by its minders, each adjusting for the speed and position of the robot and the height of the hurdle,” Subbaraman explains.
According to The Economist, a new algorithm created by EECS graduate student YiChang Shih and his colleagues can remove the reflections that often appear in photos taken through glass. As the team describes in their paper, their software “can indeed separate the desired image from the reflected one.”
Jordan Graham writes for The Boston Herald about a system created by Prof. Brian Williams that allows unpiloted underwater vehicles to make decisions without human intervention. Williams explains that the system was developed so that an underwater robot would not need low-level commands, “you just give it your goals.”
Brooks Hays of UPI writes that Prof. Brian Williams has developed a new system that allows autonomous underwater vehicles to operate independently. Robots using the new system “are able to navigate underwater expanses and execute research tasks on their own. Researchers simply dictate high-level goals, and the submersible calculates the most efficient path forward."