'Fitbit for the face' turns masks into monitoring devices
Friday, 14 January, 2022
Northwestern University engineers have developed FaceBit, a smart sensor platform that features a tiny magnet and can attach to any N95, cloth or surgical face mask.
The device, dubbed 鈥楩itbit for the face鈥 by researchers, can sense the user鈥檚 real-time respiration rate, heart rate and mask wear time, and may also be able to replace cumbersome tests by measuring mask fit. This information is then wirelessly transmitted to a smartphone app, which contains a dashboard for real-time health monitoring. The app can immediately alert the user when issues 鈥 such as elevated heart rate or a leak in the mask 鈥 arise. The physiological data also could be used to predict fatigue, physical health status and emotional state.
鈥淲e wanted to design an intelligent face mask for healthcare professionals that does not need to be inconveniently plugged in during the middle of a shift,鈥 said Northwestern鈥檚 Josiah Hester, who led the device development.
Although a tiny battery powers the device, FaceBit is designed to harvest energy from any variety of ambient sources 鈥 including the force of the user鈥檚 breathing, motion and heat from a user鈥檚 breath as well as from the sun. This extends the sensor鈥檚 battery life, lengthening time between charges.
鈥淲e augmented the battery鈥檚 energy with energy harvesting from various sources, which means that you can wear the mask for a week or two without having to charge or replace the battery,鈥 Hester said.
Hester is an assistant professor of computer science, computer engineering and electrical engineering and the Breed Junior Professor of Design at Northwestern鈥檚 McCormick School of Engineering.
The fit test
Before designing the device, Hester and his collaborators interviewed doctors, nurses and medical assistants to better understand their needs for smart face masks. In a series of surveys, all clinicians indicated that quality of mask fit was most important 鈥 especially when working directly with patients with viral infections.
To ensure their N95 masks are properly sealed to their faces, healthcare workers periodically undergo a 20-minute 鈥榝it test鈥. During this process, healthcare workers first put on an N95 respirator followed by a clear hood over their entire head. Another worker then pumps either sweet or bitter aerosol mists into the hood. The concentration of the aerosol is gradually increased inside the hood until it can be detected by the person wearing the respirator. If the wearer tastes bitter or sweet before a certain number of aerosol pumps, then the mask is not properly sealed.
While FaceBit cannot yet replace this cumbersome process, it can ensure the mask retains proper fit between testing events. For example, if the mask becomes loose throughout the day or if the user bumps the mask during an activity, FaceBit can alert the wearer.
鈥淚f you wear a mask for 12 hours or longer, sometimes your face can become numb,鈥 Hester said.
鈥淵ou might not even realise that your mask is loose because you cannot feel it or you are too burnt out to notice. We can approximate the fit-testing process by measuring mask resistance. If we see a sudden dip in resistance, that indicates a leak has formed, and we can alert the wearer.鈥
Face-centric bio-sensing
The FaceBit can assess more than mask fit 鈥 it also can monitor the person wearing the mask in real time. By gathering various physiological signals 鈥 such as heart and respiratory rates 鈥 FaceBit can help wearers better understand their own bodies to make beneficial health decisions. All health information, including mask fit and wear time, are displayed on the accompanying smartphone app.
鈥淵our heart is pushing a lot of blood through the body, and the ballistic force is quite strong,鈥 Hester said. 鈥淲e were able to sense that force as the blood travels up a major artery to the face.鈥
Because stressful events can elicit physiological responses, including rapid breathing, FaceBit can use that information to alert the user to take a break, go for a walk or take some deep breaths to calm down. 黑料吃瓜群网 systems also could use this data to optimise shift and break schedules for its workers. And because heart rate and respiration rate are so tightly entangled with each other, having the ability to effortlessly monitor both could open new research possibilities.
Battery-free future
An expert in sustainable, battery-free technology, Hester hopes his team or others eventually will be able to make FaceBit completely battery-free.
Although his team evaluated the device on volunteers in real-world scenarios, Hester said FaceBit still needs to undergo clinical trials and validation. The team released the project as open source and open hardware so others can build and validate the device.
鈥淔aceBit provides a first step toward practical on-face sensing and inference and provides a sustainable, convenient, comfortable option for general health monitoring for COVID-19 frontline workers and beyond,鈥 Hester said. 鈥淚鈥檓 really excited to hand this off to the research community to see what they can do with it.鈥
In the study, researchers found FaceBit鈥檚 accuracy was similar to clinical-grade devices, and the battery lasted longer than 11 days between charges. More information is available at .
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