拒绝服务下基于观测器的多传输通道输入状态稳定控制*

2022 Eighth Indian Control Conference (ICC) Pub Date : 2022-12-14 DOI:10.1109/ICC56513.2022.10093432

A. Basu, Indrani Kar

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引用次数: 1

摘要

在过去十年中，加强网络物理系统安全性的兴趣呈指数级增长。控制研究界已经认识到，一旦攻击者违反了网络物理保护和检测系统，集成系统中的反馈回路就会受到影响。研究了具有多个传输通道的网络物理系统在拒绝服务(DoS)攻击下的弹性控制问题。首先，考虑DoS下不同的传输通道，设计了一组luenberger类观测器。根据多通道DoS (Multi-Channel DoS)的情况，提出了一种切换观测器的拓扑结构。然后，针对全尺寸DoS (FSDoS)设计了弹性控制策略。我们描述了mcdo切换观测器的频率和fsdo的频率和持续时间，在存在干扰的情况下保持闭环系统的输入状态稳定性(ISS)。为了完成国际空间站的任务，制定了适当的传输周期计划。

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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Observer-Based Input-to-State Stabilizing Control for Multiple Transmission Channels under Denial-of-Service*

Interests in strengthening the security of cyber-physical systems have grown exponentially in the last decade. The control research community has perceived that the feed-back loop embedded in integrated systems can be affected once attackers accomplish violations of the cyber-physical protection and detection systems. The resilient control problem for cyber-physical systems with numerous transmission channels under Denial-of-Service (DoS) is investigated in this article. First, a set of Luenberger-like observers are designed considering different transmission channels under DoS. A switching topology is developed to switch observers according to the situation of Multi-Channel DoS (MCDoS). Then a resilient control strategy is designed for the Full-Scale DoS (FSDoS). We characterize the frequency of switching observers for MCDoS and the frequency and duration of FSDoS, retaining the closed-loop system's Input-to-State Stability (ISS) in the presence of disturbance. A proper schedule of the transmission periods is developed in order to accomplish ISS.

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2022 Eighth Indian Control Conference (ICC)

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