期刊论文详细信息
IEEE Access
Noticeability Versus Impact in Traffic Signal Tampering
Timothy Mulumba1  Saif Eddin Jabari1  Bilal Thonnam Thodi1 
[1] Department of Civil and Urban Engineering, Tandon School of Engineering, NYU, Brooklyn, NY, USA;
关键词: Network vulnerability;    signal tampering;    traffic flow dynamics;    urban traffic networks;    adversarial attacks;    cybersecurity;   
DOI  :  10.1109/ACCESS.2020.2992536
来源: DOAJ
【 摘 要 】

This paper investigates the vulnerability of urban traffic networks to cyber attacks on traffic lights. We model traffic signal tampering as a bi-objective optimization problem that simultaneously seeks to reduce vehicular throughput in the network over time (maximize impact) while introducing minimal changes to network signal timings (minimize noticeability). We represent the Spatio-temporal traffic dynamics as a static network flow problem on a time-expanded graph. This allows us to reduce the (non-convex) attack problem to a tractable form, which can be solved using traditional techniques used to solve linear network programming problems. We show that minor but objective adjustments in the signal timings over time can severely impact traffic conditions at the network level. We investigate network vulnerability by examining the concavity of the Pareto-optimal frontier obtained by solving the bi-objective attack problem. Numerical experiments are carried to illustrate the types of insights that can be extracted from the Pareto-optimal frontier. For instance, our experiments suggest that the vulnerability of a traffic network to signal tampering is independent of the demand levels.

【 授权许可】

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