An Encoding-Based Privacy-Preserving Security Control Strategy Under Stealthy Attacks

IEEE Transactions on Industrial Cyber-Physical Systems Pub Date : 2025-02-13 DOI:10.1109/TICPS.2025.3542039

Jian Liu;Shuailong Wang;Lijuan Zha;Jinliang Liu;Engang Tian

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Abstract

This paper focuses on the privacy-preserving security control issue for cyber-physical systems (CPSs) via an encoding-decoding communication scheme (EDCS). To considerably contemplate the delayed data acquisition and analysis, the integral measurement model is established, which is governed by the function related to system states within a certain period. The EDCS designed has a certain resistant to the non-ideal communication network with limited bandwidth capacity and fading channels. Then the controller is constructed by utilizing the decoding data. Furthermore, in the controller-to-actuator channel, assuming the stealthy false data injection attacks occur randomly and the injected pseudo data is associated with transmission data that has been eavesdropped. By virtue of deriving sufficient conditions, the CPS with EDCS can achieve input-to-state stability as well as the corresponding controller and observer gain parameters are acquired. Eventually, the effectiveness of the designed EDCS and control algorithm is illustrated by a case study involving an autonomous underwater vehicle system.

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隐身攻击下基于编码的隐私保护安全控制策略

本文研究了一种基于编解码通信方案（EDCS）的网络物理系统（cps）的隐私保护安全控制问题。为了充分考虑数据采集和分析的延迟性，建立了由一定时间内系统状态相关函数控制的积分测量模型。所设计的EDCS对有限带宽容量和衰落信道的非理想通信网络具有一定的抵抗能力。然后利用解码数据构造控制器。进一步，在控制器到执行器通道中，假设隐形假数据注入攻击随机发生，注入的伪数据与被窃听的传输数据相关联。通过推导充分条件，具有EDCS的CPS可以实现输入到状态的稳定，并获得相应的控制器和观测器增益参数。最后，以某自主水下航行器系统为例，验证了所设计的EDCS和控制算法的有效性。

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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IEEE Transactions on Industrial Cyber-Physical Systems

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