Road-Side Based Cybersecurity in Connected and Automated Vehicle Systems

Masoud, Neda; Wang, Yiyang; Zhang, Ruixuan; Liu, Henry; Center for Connected and Automated Transportation (CCAT); University of Michigan

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Road-Side Based Cybersecurity in Connected and Automated Vehicle Systems

2023-04-01
By Masoud, Neda ; Wang, Yiyang ; Zhang, Ruixuan ; ...

[PDF-4.99 MB]

English

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Creators:

Masoud, Neda ; Wang, Yiyang ; Zhang, Ruixuan ; Liu, Henry

Masoud, Neda ; Wang, Yiyang ; Zhang, Ruixuan ; Liu, Henry Less -
Corporate Creators:

Center for Connected and Automated Transportation (CCAT) ; University of Michigan

Center for Connected and Automated Transportation (CCAT) ; University of Michigan Less -
Corporate Contributors:

United States. Department of Transportation. University Transportation Centers (UTC) Program ; United States. Department of Transportation. Office of the Assistant Secretary for Research and Technology

United States. Department of Transportation. University Transportation Centers (UTC) Program ; United States. Department of Transportation. Office of the Assistant Secretary for Research and Technology Less -
Subject/TRT Terms:

[+]

Anomaly Detection Automated Guided Vehicle Systems Automated Highways Computer Security Connected Vehicles Cybersecurity Intelligent Vehicles Mobility Platoon Stability Safety And Security Traffic Platooning
Publication/ Report Number:

CCAT Report No. 59
Resource Type:

Tech Report
Geographical Coverage:

United States
Edition:

Final Report
Corporate Publisher:

University of Michigan. Center for Connected and Automated Transportation
Abstract:

In this study, we develop a comprehensive framework to model the impact of cyberattacks on safety, security, and head-to-tail stability of connected and automated vehicular platoons. First, we propose a general platoon dynamics model with heterogeneous time delays that may originate from the communication channel and/or vehicle onboard sensors. Based on the proposed dynamics model, we develop an augmented state extended Kalman filter (ASEKF) to smooth sensor readings, and use it in conjunction with an anomaly detector to detect sensor anomalies. Specifically, we consider two detectors: a parametric detector, the ??2-detector, and a learning-based detector, the one class support vector machine (OCSVM). We investigate the detection power of all combinations of vehicle dynamics models (EKF and ASEKF) and detectors (??2and OCSVM). Furthermore, we introduce a novel concept in string stability, namely, pseudo string stability, to measure a platoon's string stability under cyberattacks and model uncertainties. We demonstrate the relationship between the pseudo string stability of a platoon and its detection rate, which enables us to identify the critical detection sensitivity/recall that the platoon's members should meet for the platoon to remain pseudo string stable.
Format:

PDF
Funding:

69A3551747105
Collection(s):

University Transportation Centers
Main Document Checksum:

[+]

urn:sha256:5ea514795b75a1607cfaad8eb2bc113b16906f05950b84318209fff44be7c89f
Download URL:

https://rosap.ntl.bts.gov/view/dot/68520/dot_68520_DS1.pdf
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Road-Side Based Cybersecurity in Connected and Automated Vehicle Systems

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