Diagnosing Vehicles Using Automotive Batteries as Physical Root-of-Trust — NSF Award to University of Nebraska-Lincoln (NE, $454,0
Cyberization is the foundation of automated and intelligent vehicles, requiring the deployment of ever-increasing onboard sensing, communication, and computing services. However, vehicle cyberization also creates new problems, including the potential for software bugs, security vulnerabilities, and erroneous sensor rea
| Award title | Diagnosing Vehicles Using Automotive Batteries as Physical Root-of-Trust |
|---|---|
| Award ID | 2612749 |
| Awardee | University of Nebraska-Lincoln |
| City | LINCOLN |
| State | NE |
| Amount obligated | $454,053 |
| Principal investigator | Liang He |
| Program | GOALI-Grnt Opp Acad Lia wIndus, Dynamics, Control and System D |
| Start date | 10/01/2025 |
| Abstract | Cyberization is the foundation of automated and intelligent vehicles, requiring the deployment of ever-increasing onboard sensing, communication, and computing services. However, vehicle cyberization also creates new problems, including the potential for software bugs, security vulnerabilities, and erroneous sensor readings, which can degrade vehicle reliability and disrupt the automotive industry. For optimal performance, vehicle diagnostics must consider the interactions across the physical an |
| Source | NSF Awards |
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