利用标称模型进行隐蔽的测量辅助极动力攻击

IF 9.4 1区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS IEEE Transactions on Cybernetics Pub Date : 2024-09-23 DOI:10.1109/TCYB.2024.3456084
Dajun Du;Changda Zhang;Chen Peng;Minrui Fei;Huiyu Zhou
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引用次数: 0

摘要

当传统的极点动力学攻击(TPDAs)使用标称模型实现时,精确模型和标称模型之间的模型不匹配往往会影响其隐蔽性,甚至使隐蔽性丧失。为了解决这个问题,本文提出了一种新型的隐身测量辅助极点动力学攻击(MAPDAs)方法。首先,揭示了使用精确模型的 TPDAs 的局限性。其次,针对这些局限性,提出的 MAPDAs 方法采用了自适应控制策略,从而保持了隐蔽性。此外,与需要测量和控制输入的现有方法相比,该方法只需要测量,因此更易于实施。第三,利用多变量测量的收敛性探讨了所提出的 MAPDAs 方法的性能,发现模型不匹配的 MAPDAs 具有与 TPDAs 相同的隐蔽性和相似的破坏性。最后,一个联网倒立摆系统的实验结果证实了所提方法的可行性和有效性。
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Stealthy Measurement-Aided Pole-Dynamics Attacks With Nominal Models
When traditional pole-dynamics attacks (TPDAs) are implemented with nominal models, model mismatch between exact and nominal models often affects their stealthiness, or even makes the stealthiness lost. To solve this problem, this article presents a novel stealthy measurement-aided pole-dynamics attacks (MAPDAs) method with model mismatch. First, the limitations of TPDAs using exact models are revealed. Second, to handle the limitations, the proposed MAPDAs method is designed by using an adaptive control strategy, which can keep the stealthiness. Moreover, it is easier to implement as only the measurements are needed in comparison with the existing methods requiring both measurements and control inputs. Third, the performance of the proposed MAPDAs method is explored using convergence of multivariate measurements, and MAPDAs with model mismatch have the same stealthiness and similar destructiveness as TPDAs. Finally, experimental results from a networked inverted pendulum system confirm the feasibility and effectiveness of the proposed method.
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来源期刊
IEEE Transactions on Cybernetics
IEEE Transactions on Cybernetics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-COMPUTER SCIENCE, CYBERNETICS
CiteScore
25.40
自引率
11.00%
发文量
1869
期刊介绍: The scope of the IEEE Transactions on Cybernetics includes computational approaches to the field of cybernetics. Specifically, the transactions welcomes papers on communication and control across machines or machine, human, and organizations. The scope includes such areas as computational intelligence, computer vision, neural networks, genetic algorithms, machine learning, fuzzy systems, cognitive systems, decision making, and robotics, to the extent that they contribute to the theme of cybernetics or demonstrate an application of cybernetics principles.
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