MIT researchers are developing innovations aimed at improving Covid-19 diagnostics, including an atomic-level test designed to increase testing accuracy, reports Steven Zeitchik for The Washington Post. Professor James Collins and his team are developing “a mask that uses freeze-dried technology to detect the coronavirus.”
NPR’s Ted Radio Hour spotlights the work of Alicia Chong Rodriguez SM ’17, SM ’18, who is trying to address the gaps that exist in women’s health data through a smart bra that can be used to acquire physiological data. Chong’s startup BloomerTech has “built medical-grade textile sensors that can adapt to multiple bra styles and sizes for continuous, reliable and repeatable data all around her torso and her heart.”
Reuters reporter Toby Sterling spotlights how MIT researchers have been working with Amsterdam’s Institute for Advanced Metropolitan Solutions to develop a self-driving watercraft for transporting passengers, goods and trash through the canals. “We have a lot of open water available in the canals,” says Stephan van Dijk, Amsterdam’s Institute for Advanced Metropolitan Solutions Innovation Director. “So, we developed a self-driving, autonomous ship to help with logistics in the city and also bringing people around.”
Alicia Chong Rodriguez SM ’17, SM ’18 speaks with Boston Globe reporter Pranshu Verma about the inspiration for her startup BloomerTech, which is focused on addressing heart disease in women, and the underrepresentation of women in clinical trials. As part of this effort, BloomerTech is developing a “sensor-enabled bra that feeds real-time heart data to doctors running clinical trials on women’s cardiovascular disease.”
Dezeen reporter Rima Sabina Aouf writes that MIT researchers have created an inflatable prosthetic hand that can be produced for a fraction of the cost of similar prosthetics. “The innovation could one day help some of the 5 million people in the world who have had an upper-limb amputation but can't afford expensive prostheses.”
Engineers at MIT have developed a soft, inflatable, neuroprosthetic hand that allows users to carry out a variety of tasks with ease, reports Emmett Smith for Mashable. “People who tested out the hand were able to carry out quite complex tasks, such as zipping up a suitcase and pouring a carton of juice.”
MIT researchers are developing an electronic skin that can withstand sweating, reports Karen Kwon for Inside Science. The researchers “punched holes on the e-skin to match the size of sweat pores and the distance between them. Then, inspired by kirigami, the team cut away even more material between two holes in an alternating pattern,” writes Kwon. The resulting pattern “could tolerate bending and stretching more than the conventional e-skin with simple holes.”
Fast Company reporter Mark Wilson writes that MIT researchers have created a carpet embedded with sensors to help track your workout. Dubbed the Intelligent Carpet, it “can distinguish 15 different actions with 97.8% accuracy, including squats, push-ups, bends, and rolls.”
MIT researchers have developed new programmable fibers that could help transform clothing into wearable computers, reports Kyle Mizokami for Popular Mechanics. “The polymer fibers contain hundreds of tiny silicon microchips that, once electrified, can sustain a digital connection across tens of meters,” Mizokami writes.
Forbes contributor Eric Tegler spotlights how MIT researchers are developing a fiber with digital capabilities. “Individuals wearing garments with digital fibers could be alerted to vital information about their physiology and environmental exposures, and share health/injury and location data with support forces,” Tegler explains.
Mashable spotlights how MIT’s baseball pitching coach is using motion capture technology to help analyze and teach pitching techniques. Using the technology, Coach Todd Carroll can “suggest real-time adjustments as a player is pitching so that just one session using the technology improves their game.”
UPI reporter Brooks Hays writes that researchers from MIT and other institutions have developed a programmable digital fiber that can capture, store and analyze data. The technology could “be paired with machine learning algorithms and used to make smart fabrics to record health data and aid medical diagnosis,” writes Hays.
An electric, autonomous boat developed by MIT researchers is being tested in the canals of Amsterdam as part of an effort to ease traffic, reports Aleksandar Furtula and Mike Corder for the AP. The Roboat project is aimed at developing “new ways of navigating the world’s waterways without a human hand at the wheel,” write Furtula and Corder. “The vessels are modular so they can be easily adapted for different purposes, carrying cargo or workers.”
Hanna Ali of NOVA Next speaks with Prof. Desiree Plata about methane emissions and Prof. Tim Swager about his work developing sensors that could allow users to “see” methane, track down its source and mitigate impacts. “You probably hear headlines all the time, ‘Everywhere we look for plastics in the environment, we find them,’” Plata says. “The same is true of most industrial chemicals, but the problem is I can’t pull out my cell phone and take a picture of [them]. Tim’s sensors are helping to close that gap.”
Axios reporter Bryan Walsh spotlights how MIT researchers have developed a new way for chemical signals in spinach leaves to transmit emails. “The system could help provide an early warning system for explosives or pollution, but really, we just want to know what the spinach are thinking,” writes Walsh.