CAREER: CatFly: Towards Resilience-Native Wireless Networks through Learning, Twinning, an — NSF Award to North Carolina State Uni
The evolution of next-generation (NextG) mobile and wireless networks is driven by a move toward higher carrier frequencies, such as millimeter-wave (mmWave) bands. Higher frequencies provide higher capacity but also have a much shorter distance range for coverage compared to lower-frequency signals. This means that a
| Award title | CAREER: CatFly: Towards Resilience-Native Wireless Networks through Learning, Twinning, an |
|---|---|
| Award ID | 2440756 |
| Awardee | North Carolina State University |
| City | RALEIGH |
| State | NC |
| Amount obligated | $397,422 |
| Principal investigator | Yuchen Liu |
| Program | Networking Technology and Syst |
| Start date | 07/01/2025 |
| Abstract | The evolution of next-generation (NextG) mobile and wireless networks is driven by a move toward higher carrier frequencies, such as millimeter-wave (mmWave) bands. Higher frequencies provide higher capacity but also have a much shorter distance range for coverage compared to lower-frequency signals. This means that a single access point (AP) or a base station cannot cover a large area leading to smaller areas (cells) with each AP handling a smaller number of users. This dense deployment of smal |
| Source | NSF Awards |
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