CAREER: A Unified Event-triggered Real-Time Scheduling and Control Co-Design Framework for — NSF Award to George Mason University
This NSF CAREER project aims to ensure the safety, reliability, and efficiency of modern interconnected autonomous systems, such as robot swarms, intelligent transportation networks, and smart manufacturing. The project will bring transformative change to how these complex systems share limited resources, including com
| Award title | CAREER: A Unified Event-triggered Real-Time Scheduling and Control Co-Design Framework for |
|---|---|
| Award ID | 2539218 |
| Awardee | George Mason University |
| City | FAIRFAX |
| State | VA |
| Amount obligated | $628,260 |
| Principal investigator | Ningshi Yao |
| Program | EPCL: Energy, Power, Control, |
| Start date | 06/01/2026 |
| Abstract | This NSF CAREER project aims to ensure the safety, reliability, and efficiency of modern interconnected autonomous systems, such as robot swarms, intelligent transportation networks, and smart manufacturing. The project will bring transformative change to how these complex systems share limited resources, including communication networks, computer processors, and shared physical space, by preventing the "traffic jams" of data or physical collision that cause catastrophic physical accidents or en |
| Source | NSF Awards |
$799/mo
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