Prof. Canan Dagdeviren and colleagues at MIT have developed a wearable sensor that could help more easily detect breast cancer. “Dr. Dagdeviren hopes the device will allow for more frequent screening of women who are at high risk of developing breast cancer, such as those who had inherited the BRCA1 and BRCA2 genes, or people who have had cancer previously,” writes Sarah Knapton for The Telegraph.
Researchers at MIT have developed a wearable ultrasound patch that could be used to allow women to monitor themselves for early signs of breast cancer, reports Amy Norton for HealthDay. “The hope is to one day use such portable technology to help diagnose and monitor a range of diseases and injuries – in a way that’s more accessible and cheaper than using traditional scanners housed at medical facilities,” explains Norton.
Researchers at MIT have developed a “flexible patch that can take ultrasound images comparable to those done by medical centers, but can fit into a bra,” reports Sara Kiley Watson for Popular Science. “The researchers tested their device on a 71-year-old subject with a history of breast cysts, and were able to detect cysts as small as 0.3 centimeters in diameter up to 8 centimeters deep in the tissue, all while maintaining a resolution similar to traditional ultrasounds,” writes Kiley Watson.
MIT researchers have designed a wearable ultrasound device that attaches to a bra and could be used to detect early-stage breast tumors, reports Lizzy Lawrence for STAT. “I’m hoping to really make it real, and to touch people’s lives,” says Prof. Canan Dagdeviren. “I want to see the impact of my technology not only in the lab, but on society.”
Researchers at MIT have discovered that the ocean’s color has changed considerably in the last 20 years and is “another warning sign of human-driven climate change,” reports Maria Luisa Paul for The Washington Post. “These ecosystems have taken millions of years to evolve together and be in balance,” says Senior Research Scientist Stephanie Dutkiewicz. “Changes in such a short amount of time are not good because they put the whole ecosystem out of balance.”
MIT researchers have found that over the past two decades, the color of the world’s oceans has changed significantly, reports Talib Visram for Fast Company. The change “is likely due to human-induced climate change,” explains Visram. “The color shifts matter in that they signal changes in ecosystem balance, which have the power to disrupt fragile marine food webs.”
CNN reporter Jack Guy spotlights a new study co-authored by researchers at MIT, which shows that the ocean’s color has changed considerably over the last 20 years and human-caused climate change is likely responsible. “All changes are causing an imbalance in the natural organization of ecosystems,” says senior research scientist Stephanie Dutkiewicz. “Such imbalance will only get worse over time if our oceans keep heating.”
Researchers at MIT and elsewhere have discovered that the ocean’s hue has changed significantly over the last 20 years, reports Laura Baisas for Popular Science. “A shift in ocean color is an indication that ecosystems within the surface may also be changing,” writes Baisas. “While the team can’t point to exactly how marine ecosystems are changing to reflect the shift, they are quite sure that human-induced climate change is likely behind it.”
A new study led by a team including researchers at MIT has found that more than half of the world’s ocean has changed color in the last 20 years, reports Coco Liu for Bloomberg. “The color shift could be caused by changes in plankton communities that are critical to the marine food chain,” writes Liu. “And biodiversity isn’t the only thing at stake: The shift could also affect how much carbon dioxide the ocean takes up, since different types of plankton have different abilities to absorb it."
MIT researchers have developed a new robotic gripper that is able to grasp objects using reflexes, reports Mashable. “The Robo-Gripper has proximity and contact sensors which allows it to react to surfaces near objects to better grab them. The technology may allow these machines to be used in homes or other unique, unstructured environments.”
TechCrunch reporter Brian Heater spotlights how MIT researchers have developed a new approach to robotic gripping that incorporates reflexes to help grasp and sort objects. “The new system is built around an arm with two multi-joint fingers,” writes Heater. “There’s a camera on the base and sensors on the tips that record feedback. The system uses that data to adjust accordingly.”
Researchers at MIT have predicted that without improvements in hardware efficiency, energy consumption and emissions from autonomous vehicles could be “comparable to that of data centers today,” reports Sarah Wells for Popular Mechanics. “In order to reduce the future carbon footprint of AVs, scientists will need to make the computing systems of AVs, including smart sensors, far more efficient,” writes Wells.
MIT researchers have created a new headset, called X-AR, that can help users find hidden or lost items by sending a wireless signal to any item that has a designated tag on it, reports WHDH. The augmented reality headset “allows them to see things that are otherwise not visible to the human eye,” explains Prof. Fadel Adib. “It visualizes items for people and then it guides them towards items.”
Boston.com reporter Ross Cristantiello writes that MIT researchers have developed a new augmented reality headset that combines computer vision and wireless perception to allow users to track and find objects hidden from view. “The system relies on radio frequency signals that can pass through everyday materials like cardboard, plastic, and wood,” Cristantiello explains.