Analysis and Design of Direct Yaw-Moment Control for Distributed Drive Electric Vehicles Considering Replay Attacks

2023 8th Asia-Pacific Conference on Intelligent Robot Systems (ACIRS) Pub Date : 2023-07-07 DOI:10.1109/ACIRS58671.2023.10240318

Wanke Cao, Xingfu Shen, Heping Ling

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Abstract

In this paper, the lateral motion control problem of distributed drive electric vehicles (DDEVs) under the coupling effects of large random attack-induced delays is studied. The external interface assembled in intelligent connected vehicles (ICVs) makes the in-vehicle controller area network (CAN) more vulnerable to cyber-attack, which negatively impact real-time control performance and stability. Based on the notion of multi-hop loop delay, the delay composition of direct yaw-moment control (DYC) under replay attack is analyzed in detail and its upper bound formula is derived based on reasonable analysis. Furthermore, the polytopic inclusion technique based on Tylor series expansion is used to describe network uncertainty, and a delay-tolerant linear quadratic regulator (LQR) method based on $H_{\infty}$ is adopted for robust tracking control. Finally, simulation results based on hardware-in-loop (HIL) experiment indicate that proposed analysis and control scheme can deal with the negative effects of replay attack and ensure reliable vehicle dynamics performance.

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考虑重放攻击的分布式驱动电动汽车直接偏航力矩控制分析与设计

研究了大随机攻击时滞耦合作用下分布式驱动电动汽车的横向运动控制问题。智能网联汽车(icv)中装配的外部接口使车载控制器局域网(CAN)更容易受到网络攻击，从而对实时控制性能和稳定性产生负面影响。基于多跳环路延迟的概念，详细分析了重放攻击下直接偏航力矩控制(DYC)的延迟构成，并在合理分析的基础上推导了其上界公式。采用基于泰勒系列展开的多面体包含技术描述网络的不确定性，采用基于$H_{\infty}$的容延迟线性二次型调节器(LQR)方法进行鲁棒跟踪控制。最后，基于硬件在环(HIL)实验的仿真结果表明，所提出的分析与控制方案能够有效应对重放攻击的负面影响，保证车辆的动力学性能可靠。

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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2023 8th Asia-Pacific Conference on Intelligent Robot Systems (ACIRS)

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