Zhou, Xugui scite author profile

A growing number of vehicles are being transformed into semi-autonomous vehicles (Level 2 autonomy) by relying on advanced driver assistance systems (ADAS) to improve the driving experience. However, the increasing complexity and connectivity of ADAS expose the vehicles to safety-critical faults and attacks. This paper investigates the resilience of a widelyused ADAS against safety-critical attacks that target the control system at opportune times during different driving scenarios and cause accidents. Experimental results show that our proposed Context-Aware attacks can achieve an 83.4% success rate in causing hazards, 99.7% of which occur without any warnings. These results highlight the intolerance of ADAS to safety-critical attacks and the importance of timely interventions by human drivers or automated recovery mechanisms to prevent accidents.

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Strategic Safety-Critical Attacks Against an Advanced Driver Assistance System

Xugui¹,

Schmedding²,

Ren³

et al. 2022

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Hybrid Knowledge and Data Driven Synthesis of Runtime Monitors for Cyber-Physical Systems

Xugui

Ahmed

Aylor

et al. 2024

IEEE Trans. Dependable and Secure Comput.

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Robustness Testing of Data and Knowledge Driven Anomaly Detection in Cyber-Physical Systems

Xugui¹,

Kouzel²,

Alemzadeh³

2022

Preprint

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Zhou, Xugui

Data-driven Design of Context-aware Monitors for Hazard Prediction in Artificial Pancreas Systems

Strategic Safety-Critical Attacks Against an Advanced Driver Assistance System

Strategic Safety-Critical Attacks Against an Advanced Driver Assistance System

Hybrid Knowledge and Data Driven Synthesis of Runtime Monitors for Cyber-Physical Systems

Robustness Testing of Data and Knowledge Driven Anomaly Detection in Cyber-Physical Systems

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