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Nidhi Subbaraman writes for BetaBoston about MIT’s new cybersecurity initiatives designed to “tackle tech security problems both big and small.” The new efforts are aimed at addressing cybersecurity’s technical, policy and business challenges.
MIT is launching three cybersecurity efforts, including one aimed at managing cybersecurity within critical infrastructure, reports Rachael King for The Wall Street Journal. “We’re hoping to develop a number of new approaches and techniques that measure security culture in organizations,” says Prof. Stuart Madnick.
MIT is launching three new cybersecurity initiatives aimed at the technical, business and regulatory issues posed by cybersecurity, reports Conor Ryan for BostInno. “We hope that these initiatives will help us work together with industry to create better tools to eliminate a lot of the current vulnerabilities that plague the digital landscape,” says Prof. Daniela Rus.
Spencer Kelly of BBC News visits the MIT Distributed Robotics Lab to see how researchers have developed software that allows robots to build Ikea furniture. Kelly explains that the goal of the research is to “work towards robots that can work together collaboratively to build complex structures.”
Chris Neiger of BBC News reports on software being developed by Professor Brian Williams aimed at helping drivers arrive at their destinations on time. “The lab’s planning algorithms would give motorists an initial travel plan, which would adapt to externalities along the way,” writes Neiger.
Sarah Hedgecock writes for Forbes about how researchers have made major advances in mapping the human epigenome. Prof. Manolis Kellis explains that the new findings allow researchers to “ go from a static picture of the genome, which is effectively the book of life, to a dynamic picture of a genome.”
Professor Daniela Rus, director of CSAIL, speaks with Timothy Aeppel of The Wall Street Journal about why robots cannot perform tasks humans regularly perform, like folding laundry. While Rus explains that it would be difficult to predict when robots will be able to match the skill set of humans, “compared to now, what we had just two years ago was nothing, so I don’t think it’s going to take that long.”
A team of researchers has published a map of the human epigenome, which could be useful in better understanding how to treat disease, writes Amanda Schupak for CBS News. Prof. Manolis Kellis explains that the findings provide “a reference for studying the molecular basis of human disease, by revealing the control regions that harbor genetic variants associated with different disorders."
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.
Rachel Feltman of The Washington Post reports that a team led by Professor Manolis Kellis has released the most complete map of the human epigenome to date. “The researchers tied specific cell changes to 58 different biological traits,” writes Feltman. “Sometimes the epigenomic changes of a cell reveal possible clues about disease.”
Work on mapping the human epigenome, led by Professor Manolis Kellis, could reveal the origins of diseases such as cancer and Alzheimer’s, reports Carolyn Johnson for The Boston Globe. “The research was one major piece of a $240 million National Institutes of Health program that funded 88 grants over 10 years,” Johnson explains.
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.
Rachel Feltman writes for The Washington Post about how MIT researchers have developed new technology that can amplify microscopic movements invisible to the human eye. “MIT researchers recently published a study in which they extracted intelligible audio by analyzing the movements of a nearby bag of chips,” Feltman writes.