NCS-FO: Fully Wireless Flexible Electrical-Acoustic Implant for High-Resolution Neural Sti — NSF Award to University of Maryland B
Dynamic mapping of complex brain circuits by monitoring and modulating brain activity can enhance our understanding of brain functions and provide the promise of better treatment and prevention of different neurological disorders. Interfacing with the brain also has the potential to enhance our perceptual, motor, and c
| Award title | NCS-FO: Fully Wireless Flexible Electrical-Acoustic Implant for High-Resolution Neural Sti |
|---|---|
| Award ID | 2606423 |
| Awardee | University of Maryland Baltimore County |
| City | BALTIMORE |
| State | MD |
| Amount obligated | $441,901 |
| Principal investigator | Mehdi Kiani |
| Program | IntgStrat Undst Neurl&Cogn Sys |
| Start date | 10/01/2025 |
| Abstract | Dynamic mapping of complex brain circuits by monitoring and modulating brain activity can enhance our understanding of brain functions and provide the promise of better treatment and prevention of different neurological disorders. Interfacing with the brain also has the potential to enhance our perceptual, motor, and cognitive capabilities, as well as to restore sensory and motor functions lost through injuries or diseases. The development of closed-loop neural interfaces with high-resolution re |
| Source | NSF Awards |
$799/mo
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