MIT researchers have developed a garden filled with origami robots, LED flowers that can bloom on command and mechanical insects, reports Nidhi Subbaraman for BetaBoston. The garden was developed in an effort to make programming more accessible to children.
Marcus Woo writes for Wired about how researchers have published a number of articles providing new information on the human epigenome, which controls which genes get switched on or off. “It is giving us a view of the living, breathing genome in motion, as opposed to a static picture of DNA,” explains Prof. Manolis Kellis.
For the first time, researchers have mapped the epigenome, identifying the switches that can turn individual genes on or off, reports Sharon Beagley for Reuters. Says Prof. Manolis Kellis of the need to understand the epigenome, "The only way you can deliver on the promise of precision medicine is by including the epigenome.”
Researchers have mapped the epigenome, shedding light on how genes are controlled, which could be useful in understanding disease, reports Gina Kolata for The New York Times. “We now have an unprecedented view of the living human genome,” says Prof. Manolis Kellis.
“A team of MIT researchers found that an existing computer vision system can achieve object recognition as well as humans and other primates,” writes Jamie Ducharme for Boston Magazine. Professor James DiCarlo’s team compared the visual recognition abilities of primates to those of the advanced computer system Super Vision.
Sarah Kaplan of The Washington Post highlights Prof. Sangbae Kim’s work developing a robot modeled after the cheetah. Kim explains that he took inspiration from the cheetah’s movements to design a robot that could run. “We can steal a lot of ideas from nature that we can apply . . . to speed up our engineering evolution,” he explains.
MIT researchers have designed a robotic cheetah that could possibly be used in search and rescue operations or as inspiration for the design of prosthetics, reports the Associated Press. “Our goal is we are trying to make this robot to save a life,” says Prof. Sangbae Kim.
The result of five years of testing, a robotic cheetah developed by MIT researchers can run at speeds of 10 miles per hour and jump 16 inches high, reports the Associated Press. "In the next 10 years, our goal is we are trying to make this robot to save a life," explains Professor Sangbae Kim.
New Scientist reporter Jacob Aron writes about MIT graduate student Theodore Yoder’s work upgrading a quantum search algorithm to make it more effective. The new algorithm lets users “hone in on specific answers without knowing in advance how many there are,” Aron explains.
The Huffington Post reports on how MIT researchers have developed a robotic cheetah that can run and jump, untethered.
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.