A Control-Recoverable Added-Noise-based Privacy Scheme for LQ Control in Networked Control Systems

arXiv - CS - Systems and Control Pub Date : 2024-03-20 DOI:arxiv-2403.13346

Xuening Tang, Xianghui Cao, Wei Xing Zheng

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Abstract

As networked control systems continue to evolve, ensuring the privacy of sensitive data becomes an increasingly pressing concern, especially in situations where the controller is physically separated from the plant. In this paper, we propose a secure control scheme for computing linear quadratic control in a networked control system utilizing two networked controllers, a privacy encoder and a control restorer. Specifically, the encoder generates two state signals blurred with random noise and sends them to the controllers, while the restorer reconstructs the correct control signal. The proposed design effectively preserves the privacy of the control system's state without sacrificing the control performance. We theoretically quantify the privacy-preserving performance in terms of the state estimation error of the controllers and the disclosure probability. Additionally, the proposed privacy-preserving scheme is also proven to satisfy differential privacy. Moreover, we extend the proposed privacy-preserving scheme and evaluation method to cases where collusion between two controllers occurs. Finally, we verify the validity of our proposed scheme through simulations.

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网络控制系统中 LQ 控制的可控可恢复附加噪声隐私方案

随着网络控制系统的不断发展，确保敏感数据的隐私成为一个日益紧迫的问题，尤其是在控制器与工厂物理分离的情况下。在本文中，我们提出了一种在网络控制系统中计算线性二次控制的安全控制方案，该方案利用了两个网络控制器、一个隐私编码器和一个控制恢复器。具体来说，编码器生成随机噪声模糊的双状态信号并将其发送给控制器，而恢复器则重建正确的控制信号。所提出的设计既有效地保护了控制系统状态的隐私，又不影响控制性能。我们从理论上用控制器的状态估计误差和泄露概率来量化隐私保护性能。此外，我们还将提出的隐私保护方案和评估方法扩展到两个控制器之间发生串通的情况。最后，我们通过仿真验证了所提方案的有效性。

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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arXiv - CS - Systems and Control

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