Collaborative Research: NSF-DFG: SaTC 2.0: RES: Toward Zero Trust Wireless Integrated Sens — NSF Award to University of South Flor
An integrated sensing and communication (ISAC) system design is important for delivering the quality-of-service needs of emerging wireless services (e.g., digital twins) over 5G and beyond cellular systems. Although ISAC system design provides a variety of benefits (e.g., spectrum efficiency, and reduced hardware compl
| Award title | Collaborative Research: NSF-DFG: SaTC 2.0: RES: Toward Zero Trust Wireless Integrated Sens |
|---|---|
| Award ID | 2520901 |
| Awardee | University of South Florida |
| City | TAMPA |
| State | FL |
| Amount obligated | $300,000 |
| Principal investigator | Yao Liu |
| Program | Secure &Trustworthy Cyberspace |
| Start date | 03/01/2026 |
| Abstract | An integrated sensing and communication (ISAC) system design is important for delivering the quality-of-service needs of emerging wireless services (e.g., digital twins) over 5G and beyond cellular systems. Although ISAC system design provides a variety of benefits (e.g., spectrum efficiency, and reduced hardware complexity), it introduces several unique privacy and security challenges due to their dual-purpose nature (i.e., using one signal for both sensing and data transmission) and shared res |
| Source | NSF Awards |
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