Event‐triggered fault estimation and nonfragile synchronization control for multiweighted complex dynamical networks with deception attacks

This article addresses the problem of distributed joint estimation for a class of discrete‐time time‐varying systems subject to random nonlinearities and unknown inputs over sensor networks. For the purpose of energy‐saving, the dynamic event‐triggering mechanism is adopted to govern the signal transmission between the sensor and the local estimator. First, some constraint conditions are introduced to decouple the unknown input to eliminate their impact. Then, by means of mathematical induction, an upper bound of the filtering error covariance is individually obtained for the state and the unknown input by solving coupled Riccati‐like difference equations. Subsequently, the matrix simplification method is adopted to tackle the sparsity problem caused by sensor networks. In addition, the required distributed estimator gains are acquired by minimizing the obtained upper bounds of filtering error covariances. Finally, a numerical simulation is given to illustrate the effectiveness of the proposed joint estimator design scheme.

Section: Discussionmentioning

confidence: 99%

Event‐based joint estimation for unknown inputs and states: A distributed recursive filtering method

Liu

Wei

et al. 2023

“…Therefore, a promising direction involves designing control laws to achieve finite‐time stabilization of CPSs operating under ETMs. Fault detection filter: In response to the growing emphasis on system security, the fault detection problem in CPSs has gained significant attention. Drawing inspiration from works such as References 13,30,34, it is a promising direction to explore the finite‐time stabilization of CPSs while incorporating fault detection filtering techniques.…”

Section: Discussionmentioning

confidence: 99%

“…Traditional nonfragile controllers, as discussed in References 31 and 32, are commonly structured in the form of

u(t)=\left[K+\Delta K(t)\right]x(t)

. Based on the insights from the work in Reference 30, we have further refined this approach to derive the controller represented in (5). Notably,

\xi (t)

serves as a random disturbance factor affecting the control gain in real‐world physical systems.…”

Section: Security Control For Cps Over Single‐path Networkmentioning

confidence: 99%

Nonfragile security control for time‐varying cyber‐physical systems operating over multipath networks

Di,

Tan

2023

The main focus of this article is to explore the finite‐time stabilization of time‐varying cyber‐physical systems (CPS) that are operating over multipath networks and under random denial‐of‐service (DoS) attacks. In contrast to prior studies, we present a set of necessary and sufficient conditions for achieving finite‐time stability in the closed‐loop model of CPS operating over single‐path network. Notably, this equivalent conditions are established based on the analysis of the state transition matrix (STM). Additionally, we utilized auxiliary systems to study more general CPS operating over multipath networks and obtained a sufficient condition based on STM. Finally, we address a sufficient condition based on the Lyapunov function and introduce a linear matrix inequality (LMI)‐based approach that facilitates the computation of nonfragile controllers. The effectiveness of the developed theoretical results is verified through a stock investment model.

“…Up to now, an event-triggered mechanism and a PNB filtering scheme have attracted the interest of many scholars, respectively, and there are more research reports on them. [29][30][31][32][33][34][35][36] However, the PNB filter problem has received less attention in the field of set-membership filtering. Therefore, combining the ETM and the PNB filtering scheme in the research of set-membership filtering is necessary.…”

Section: Introductionmentioning

confidence: 99%

“…Hence a method of partial‐nodes‐based (PNB) filtering is required to estimate the state of the whole networks by some nodes. Up to now, an event‐triggered mechanism and a PNB filtering scheme have attracted the interest of many scholars, respectively, and there are more research reports on them 29–36 . However, the PNB filter problem has received less attention in the field of set‐membership filtering.…”

Section: Introductionmentioning

confidence: 99%

Partial‐node‐based resilient set‐membership filtering for output‐coupled complex networks with event‐triggered mechanisms

Lin,

Shen,

Liu

et al. 2024

This paper studies the resilient set‐membership filtering for discrete‐time nonlinear complex networks with output‐coupled topologies. An event‐triggered mechanism (ETM) is employed to save communication resources from the sensor to the filter. A resilient set‐membership filter (RSMF) handles unknown bounded uncertainty, resists the gain perturbation and makes the estimation errors to a certain ellipsoid region. Sufficient conditions for the existence of the RSMF are derived using mathematical induction techniques. The filter gain can be determined on the basis of solving a specific set of recursive matrix inequalities. Then, by optimizing the constrained ellipsoid of the estimation error, the optimized filtering performance is ensured. Finally, a numerical example is given to demonstrate the effectiveness of the proposed RSMF.