CSAIL researchers have discovered that some traffic jams are caused by tailgating, writes Thomas Tamblyn for HuffPost. Maintaining an equal distance in front of and behind a vehicle, “could have a dramatic effect in reducing travel time and fuel consumption without having to build more roads or make other changes to infrastructure,” explains Prof. Berthold Horn.
In this video, Reuters spotlights how MIT researchers have developed a new sensor that can be applied to plant leaves and can identify when a plant is experiencing a water shortage. Prof. Michael Strano explains that the sensor allows users to, “detect the onset of water stress long before the tissue starts to be harmed.”
Forbes reporter Laurie Winkless writes that MIT researchers have found that if drivers maintained fixed distances between the cars in front of and behind them they would be able to reduce traffic jams. “We humans tend to view the world in terms of what’s ahead of us, so it might seem counter-intuitive to look backwards,” explains Prof. Berthold Horn.
CNN reporter Matt McFarland writes that CSAIL researchers have proposed that outfitting cars with cruise control systems that maintain equal distances between cars could help alleviate phantom traffic jams. The researchers’ simulations showed, “keeping the same distance between the vehicle in front and the vehicle trailing a car prevents traffic jams.”
CSAIL researchers have found that if drivers could maintain an equal distance between cars they would be able to reduce the number of traffic jams, reports Matt Burgess for Wired. The researchers found that, “by adding sensors to the back of cars that take into account the speed of following vehicles, it will be possible to better regulate traffic.”
MIT spinout Ginkgo Bioworks has not only maintained its founding members, but also recently raised $275 million from investors, writes Matthew Herper for Forbes. Herper predicts that excitement surrounding synthetic biology companies will continue because “private money is getting excited about the idea of designing biology.”
Newsweek reporter Sydney Pereira writes that MIT researchers have engineered a plant that can glow in the dark by embedding nanoparticles into the plant’s leaves. “Further optimization could one day lead to plants that could illuminate entire work spaces or sprays that can be coated onto trees to transform them into streetlights,” Pereira explains.
CBS Boston spotlights how Portal Instruments, an MIT startup, is bringing a needle-free injector to the market, which could change the way people take medicine. The device, “fires a pressurized spray to penetrate the skin, instead of piercing the skin with traditional needles.”
In an article for The Week, John Holden speaks with Prof. Kripa Varanasi about what inspired him to pursue a career science. Varanasi recalls how his mother, “was instrumental in driving my ambitions. She used to buy me amazing electronics kits when I was a kid.”
MIT researchers have developed a new technique to 3-D print genetically engineered bacteria into a variety of shapes and forms, reports Karen Hao for Quartz. The technique could eventually be used to develop such devices as, “an ingestible living robot that secretes the correct drug when it detects a tumor.”
In a Boston Globe Magazine article about bioelectronic medicine, writer Jessie Scanlon highlights research by Profs. Ed Boyden and Daniela Rus. Boyden notes that by creating light-sensitive molecules, which can be switched on and off and inserted into neurons, “groups in academia and industry are using the tool to discover patterns of neural activity.”
MIT engineers have developed a method to 3-D print living cells into tattoos and 3-D structures, reports Danny Paez for Inverse. Paez explains that the researchers believe the technique, “could possibly be used to create a ‘living computer,’ or a structure made up of living cells that can do the stuff your laptop can.”
Co.Design reporter Katharine Schwab writes that MIT researchers have developed a tattoo made of living cells that activate when exposed to different kinds of stimuli. Schwab explains that in the future the tattoos could be designed, “so that they respond to environmental pollutants or changes in temperature.”
A new study by MIT researchers provides evidence that antibiotics can change the body’s chemistry and make it more hospitable to bacteria, reports Melinda Wenner Moyer for Scientific American. “We suspect that the strength of this effect will really depend on the type of infection and types of antibiotics used,” explains postdoc Jason Yang.
Merrit Kennedy reports for NPR that MIT researchers have developed robotic artificial muscles that can lift 1,000 times their own weight. Prof. Daniela Rus explains that the technology could eventually be used to bring "soft strong mobility to people who are otherwise unable to move."