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Electrical engineering and computer science (EECS)

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Boston Globe

Boston Globe reporter Kevin Hartnett writes about a new algorithm developed by a team of MIT researchers that can camouflage eyesores. The algorithm, “analyzes pictures of incongruous objects and creates custom camouflage that makes them fade into their surroundings,” Hartnett explains. 

Live Science

Live Science reporter Tanya Lewis highlights Shigeru Miyagawa’s work exploring the origins of human language. Miyagawa's hypothesis, “could explain how human language, which can theoretically produce infinite meanings, developed from the limited forms of communication seen in the rest of the animal world,” Lewis reports. 

NPR

Jeremy Hobson interviews Prof. Sangeeta Bhatia about her work 3-D printing tiny human livers on NPR’s Here and Now. The livers are, “about the size of the pin of a needle, and they allow us to do drug testing to test if drugs would be safe when they got into humans,” Bhatia explains. 

Wired

“MIT’s big idea is to create printable camouflage coverings using algorithms,” writes Liz Stinson for Wired about new research from graduate student Andrew Owens that aims to hide eyesores. “These algorithms pull in environmental data via photographs and construct an image that best blends an object in with its surroundings.”

Bloomberg Businessweek

Bloomberg Businessweek features Skylar Tibbits’ research on self-assembling materials. By exposing specially engineered materials to heat, moisture or light, Tibbits demonstrates how they can assemble into useful components.

United Press International (UPI)

“When it comes out of the 3D printer, the robot is just a sheet made of a polymer called polyvinyl chloride, or PVC. The sheet is sandwiched between two rigid polyester films. Slits cut into the films affect how the PVC sheet will fold when it is heated,” writes UPI reporter Brooks Hays of new work with self-assembling robots. 

New Scientist

New Scientist writer Aviva Rutkin reports that MIT researchers have developed a new process in which flat cut-outs are able to self-assemble into robots when heated. "What we would like is to provide design tools that allow people who are not experts to create their own machines," explains Prof. Daniela Rus. 

Wired

In a piece for Wired, Olivia Solon writes about how Professor Daniela Rus’ research group has developed, “a system of 2D patterns cut into plastic that can self-fold under heat into 3D shapes.” 

Engadget

MIT researchers have helped to produce an algorithm that applies professional photograph editing to self-portraits, writes Billy Steele for Engadget. The software uses existing works to make a match with the captured image, explains grad student YiChang Shih. 

NBC News

“Eventually she can see a world where people can use an algorithm to analyze an image, create blueprints and print out fully functional robots. This could be a big deal in manufacturing, health care and, yes, toys,” writes NBC News writer Keith Wagstaff of Professor Daniela Rus’ work with self-assembling robots. 

Boston Globe

The Boston Globe profiles Dr. Sangeeta Bhatia and the new low-cost urine test she developed to detect cancer, as well as her work applying engineering techniques to medicine.

HuffPost

John Daly writes about new research from MIT that shows organic materials could be used to conduct electricity and emit different colors of light. The research could have major implications for the development of photovoltaic cells and solar energy

BBC News

“Living materials based on bacteria and grown in a Boston lab could point to a greener way of manufacturing,” writes BBC News reporter Roland Pease of new MIT work to develop living materials.

IEEE Spectrum

“Now researchers at MIT have devised a way to combine a living E. coli cell with inanimate building blocks, like gold nanoparticles and quantum dots, to create a hybrid ‘living material,’” writes Dexter Johnson in IEEE Spectrum.

Wired

Nadia Drake writes in Wired about MIT researchers developing living materials. “By tricking E.coli into incorporating gold nanoparticles or quantum dots into their proteins, the team has crafted biofilms with a range of crazy capabilities,” Drake reports.