欺骗攻击下复杂网络的事件触发状态估计:一种基于部分节点的方法

Lu Zhou, Bing Li
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引用次数: 0

摘要

本文通过输出测量来解决一类具有分布延迟和随机干扰的复杂网络的状态估计问题。在数据传输中,欺骗攻击通过采用具有给定概率的伯努利随机变量序列来考虑。考虑到网络的复杂性,在实际环境中只能获得部分输出测量这一事实提出了新的挑战。因此,提出了基于部分节点的状态估计问题。为了避免数据碰撞和节省能源,在估计器的设计中采用了通用的事件触发方案。构造了一种新的估计器,同时考虑网络攻击和资源限制,填补了以往PNB状态估计结果的空白。利用李雅普诺夫方法和几种随机分析技术,导出了保证总体估计误差具有所需安全性和收敛性的几个充分条件。估计增益是通过求解一组具有非线性约束的矩阵不等式来获得的。最后,通过两个算例和仿真,进一步验证了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Event-triggered state estimation for complex networks under deception attacks: a partial-nodes-based approach
This paper addresses the issue of state estimation for a kind of complex network (CN) with distributed delays and random interference through output measurements. In the data transmission, the deception attacks are taken into account by resorting to a sequence of Bernoulli random variables with a given probability. Considering the complexity of the network, the fact that only partial output measurements are available in practical environments presents a new challenge. Therefore, the partial-nodes-based (PNB) state estimation problem is proposed. For the sake of data collision avoidance and energy saving, a general event-triggered scheme is adopted in the design of the estimator. A novel estimator is constructed to consider both cyber attacks and resource limitations, filling the gap in previous results on PNB state estimation. By using the Lyapunov method and several stochastic analysis techniques, a few sufficient conditions are derived to guarantee the desired security and convergency performance for the overall estimation error. The estimator gains are obtained by solving a set of matrix inequalities with nonlinear constraints. At last, two examples and simulations are presented to further show the efficiency of the proposed method.
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