Optimal deception attack on networked vehicular cyber physical systems

2019 53rd Asilomar Conference on Signals, Systems, and Computers Pub Date : 2019-11-01 DOI:10.1109/IEEECONF44664.2019.9048730

Moulik Choraria, Arpan Chattopadhyay, U. Mitra, E. Ström

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引用次数: 3

Abstract

Herein, design of false data injection attack on a distributed cyber-physical system is considered. A stochastic process with linear dynamics and Gaussian noise is measured by multiple agent nodes, each equipped with multiple sensors. The agent nodes form a multi-hop network among themselves. Each agent node computes an estimate of the process by using its sensor observations and messages obtained from neighbouring nodes, via Kalman-consensus filtering. An external attacker, capable of arbitrarily manipulating the sensor observations of some or all agent nodes, injects errors into those sensor observations. The goal of the attacker is to steer the estimates at the agent nodes as close as possible to a pre-specified value, while respecting a constraint on the attack detection probability. To this end, a constrained optimization problem is formulated to find the optimal parameter values of a certain class of linear attacks. The parameters of linear attack are learnt on-line via a combination of stochastic approximation and online stochastic gradient descent. Numerical results demonstrate the efficacy of the attack.

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网络化车辆网络物理系统的最优欺骗攻击

本文研究了分布式网络物理系统中虚假数据注入攻击的设计。一个具有线性动态和高斯噪声的随机过程由多个智能体节点测量，每个智能体节点配备多个传感器。代理节点之间形成一个多跳网络。每个代理节点通过卡尔曼共识滤波，利用其传感器观察和从邻近节点获得的消息来计算过程的估计。外部攻击者能够任意操纵部分或所有代理节点的传感器观测值，将错误注入这些传感器观测值。攻击者的目标是使代理节点上的估计尽可能接近预先指定的值，同时尊重对攻击检测概率的约束。为此，提出了求解一类线性攻击的最优参数值的约束优化问题。采用随机逼近和在线随机梯度下降相结合的方法在线学习线性攻击的参数。数值结果表明了攻击的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 53rd Asilomar Conference on Signals, Systems, and Computers

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