Our website is made possible by displaying online ads to our visitors.
Please consider supporting us by whitelisting our site.

Ethical engineering and 'smart socks'

First slide

In 2017, The Catholic University of America in Washington fielded its first cohort of seven student engineers for the Grand Challenges Scholars Program (GCSP), a National Academy of Engineering (NEA) initiative designed to inspire young engineers to tackle real world problems — such as access to clean water and rotting urban infrastructure — through senior-level research projects.


Catholic U. is one of fewer than 50 universities with an operational GCSP. Gregory Behrmann, clinical associate professor and director of the program, noted the overlapping missions between the school of engineering and the GCSP.


“The GCSP aligns with CUA's vision for preparing our students to serve humankind … both aim to prepare students to solve difficult problems and make the world a better place,” he said.


One of Catholic U.’s GCSP teams, with four students from mechanical engineering and one from computer science, has taken up the challenge to “advance health informatics,” — to improve medical care through better collection, management, and use of health data. In layman’s terms, the team has developed a medical device: a compression sock that takes real-time measurements of the user’s vital signs.


“It all started about a year ago,” said mechanical engineering major Jesse Williams. “My grandma called me one morning and was telling me that my dad and his siblings get frustrated when she can’t answer the phone because she lives by herself and they’re afraid that something bad has happened.”


Williams’ grandmother asked him to design an article of clothing that would detect her health levels and send them to her children’s smartphones. The device had to be comfortable, accurate and because Williams’ grandmother “has a bit of fashion sense,” stylish enough to wear every day. Williams and his teammates took up the challenge, and settled on compression socks.


“A sock is one of the most compressive pieces of clothing that everyone is already used to wearing,” said fellow team member Andrew Cunningham. “Many elderly people already wear compression socks for circulation and the top of the foot, unlike the wrist, is one of the most accurate places to measure the heart rate."


Cunningham came to the team with previous research experience in smart clothing technology, from interning with the Department of Homeland Security. His work targeted another population whose health levels are important to monitor: first responders.


“Right now, all the smart clothing out there really targets athletics. We were looking at how it can be used by firefighters and police officers to monitor their health and identify dangerous situations for the rest of the team,” said Cunningham.


Currently in the early stages of testing their design, the students are using a thin piece of fiberglass woven with something called a carbon nanotube (CNT) to simulate the sock.


Zachary Onorato has been working with CNTs since his freshman year, when a professor invited him to work in his lab. Williams, Cunningham and Amelia Vignola, the third member of the GCSP team, asked Onorato to work with them based on his experience with the delicate material. Thinner than a piece of human hair, Onorato needs a steady hand and a magnifying glass to thread the CNT through the fiberglass patch.


While current smart technology often uses electrodes to detect pulse, the idea behind the CNT is that it is flexible, using movement to detect change.


“It’s called, ‘piezoresistivity’,” said Onorato, “which means that with a mechanical change, the CNT exhibits an electrical change in resistance.” Basically, when the top of the foot pulses with the beat of the heart, the CNT in the sock flexes almost imperceptibly to the rhythm of the pulse, providing critical information about the user’s health status.


Though the students are still in the early stages of testing, if things go well, they may patent the technology and take the product to market.


“If we go there, we need to make sure our technology 100 percent works,” said Cunningham, citing the training he and his teammates have received in ethical engineering over the years. “It really is a big responsibility of engineers to make sure that what they're putting out in the world is safe and reliable, so we make a point that if we wouldn't be comfortable giving this to our own family members, then we wouldn't put it out on the market for other people to use.”


For now, the students are looking forward to unveiling a working prototype at Research Day April 9. And Williams’ grandmother, who got the scoop on the project at Christmas, is looking forward to seeing its completion, too.


“Oh she’s very excited,” laughed Williams. “Can’t wait to try it on.”


© Arlington Catholic Herald 2019