CAREER: Earable Systems: Enabling Ear-worn Sensing and Actuating Systems for Health Care a — NSF Award to Dartmouth College (NH, $
The human head houses many important physiological signals such as brain signals (EEG), facial muscle signals (EMG), eye signals (EOG), etc. which have tremendous value in inferring the user's mental, physiological, and physical states. In addition, it also serves as an ideal body part for applying brain stimulations.
| Award title | CAREER: Earable Systems: Enabling Ear-worn Sensing and Actuating Systems for Health Care a |
|---|---|
| Award ID | 2452478 |
| Awardee | Dartmouth College |
| City | HANOVER |
| State | NH |
| Amount obligated | $220,148 |
| Principal investigator | Tam Vu |
| Program | CSR-Computer Systems Research |
| Start date | 10/01/2024 |
| Abstract | The human head houses many important physiological signals such as brain signals (EEG), facial muscle signals (EMG), eye signals (EOG), etc. which have tremendous value in inferring the user's mental, physiological, and physical states. In addition, it also serves as an ideal body part for applying brain stimulations. However, most of the existing head-based sensing and stimulation methods are cumbersome, intrusive, and expensive, mostly suitable only for stationary and short-term usages such as |
| Source | NSF Awards |
$799/mo
Try NSFGrants →