In this video, Prof. Leia Stirling and graduate student Alison Gibson speak with Wired about the vibrating boots they developed to help astronauts avoid obstacles. “To be able to provide technologies that can assist the astronauts and actually make a group of people have more capability, that’s really exciting,” explains Stirling.
Guardian reporter Nicola Davis spotlights Prof. Hugh Herr’s development of an autonomous exoskeleton device that could reduce the amount of energy humans use to walk. “We are taking a first principle approach, and joint by joint understanding deeply what has to be done scientifically and technologically to augment a human,” Herr explains.
Writing for Wired, Juan Enriquez highlights the MIT Center for Extreme Bionics, which was launched in an effort to develop technologies that augment human performance and could help eliminate disabilities. Enriquez writes that the center’s “long-term ambitions are breathtaking.”
A team of MIT students has developed a device that can convert text to braille in real-time, reports Devin Thorpe for Forbes. Undergrad Jialin Shi explains that the team hopes the device “will be able to increase the braille literacy rate, and in turn, increase the employment rate of adults with significant vision loss.”
CNN’s Jessica Ravitz describes how MIT researchers are working with surgeons from Brigham and Women’s Faulkner Hospital to outfit a patient with a prosthetic limb that can be controlled by the brain. The patient will have “wireless sensors implanted in his muscles, which will integrate with the robotic prosthetic being created for him.”
MIT researchers are developing a bionic prosthesis that can be controlled by the wearer’s brain waves, reports Marie Szaniszlo for The Boston Herald. Graduate student Tyler Clites explains that the limb’s “versatility goes far beyond the technology that is currently available.”
Boston Globe reporter Eric Moskowitz writes that MIT researchers are developing a prosthetic limb that can be controlled by the user’s brain waves. Researchers in Prof. High Herr’s lab collaborated with surgeons at Brigham and Women’s Hospital to “devise an amputation surgery that could prepare a limb for a brain-controlled prosthetic.”
The Guardian’s DG McCullough highlights MIT’s Open Style Lab, which merges design, engineering and occupational therapy to create clothes for people with disabilities, and the International Design Center, which creates clothes with “fewer sensory triggers such as fraying, rough zippers and scratchy tags children and adults with autism because of their sensitivity to certain textures and colors.”
Researchers at the MIT Open Style Lab are creating products for people with disabilities in an attempt to fill a void in the clothing industry, writes Dana Guth for Boston Magazine. “More people suffer from these problems than you would ever realize looking at the market,” says Grace Jun, the lab’s executive director.
Michelle Miller reports for CBS This Morning that Rendever, an MIT startup, is developing customized virtual reality experiences for senior citizens. Miller explains that the company is working “towards a future where the physical limitations many seniors face won’t prevent them from attending, say, a granddaughter’s wedding. They’ll be able to travel virtually.”
Grace Jun, education director of MIT’s Open Style Lab, speaks to Marisa Dellatto of The Boston Globe about the lab’s work developing clothes designed to empower individuals with unique needs and their fashion show at the MIT Museum. Jun says she was inspired to develop inclusive clothing designs when she saw the potential wearable tech had to help people.
MIT alumna Tish Scolnik speaks with Forbes reporter Susan Adams about her startup, Global Research Innovation and Technology, which develops wheelchairs for rough terrain. Scolnik recalls that she was inspired to develop wheelchairs in an MIT course. “I thought the class would hit my interest and give me an opportunity to understand what engineering was all about.”
ABC News visits Prof. Hugh Herr’s lab to explore his work developing bionic limbs aimed at augmenting human capabilities and ending “profound human suffering caused by disability.” Herr says he “always had the dream of developing exoskeletal structures that would enable anyone to walk with less energy, run with less energy, move faster with complete ease.”
In an article for The Atlantic, Jessa Gamble highlights MIT alumnus David Sengeh’s work, which is focused on designing better-fitting prosthetics by examining a patient’s internal anatomy using MRI technology. “We’ve been able to make the [world’s] first socket entirely from quantitative methods,” says Sengeh. “No human hands were involved in defining the shape, including the cut lines and material properties of the socket.”
Space.com reporter Samantha Mathewson writes that MIT researchers have developed a vibrating boot to help astronauts avoid obstacles. Prof. Leia Stirling explains that she hopes the boot will make astronauts “more confident and efficient during extravehicular activities and may decrease their injury risk due to trips and falls.”