Unscented Kalman filtering for nonlinear systems with sensor saturation and randomly occurring false data injection attacks

This paper reviews the latest development of fault diagnosis techniques of networked systems. Considering various challenges raised by unreliable local sensors, signal digitization, data transmission, as well as distributed architecture, recent progress on model‐based fault diagnosis of networked systems are overviewed. We summarize the typical application examples and the typical treatment methods related to scientific problems for better understanding the framework of this area. Some promising future fault diagnosis techniques in various scenarios, such as distributed systems, with communication protocols, with cyber security issues, with intelligent algorithm challenges, as well as within active fault diagnosis framework are discussed.

Section: Methodologies Major Problems Addressed Literaturementioning

confidence: 99%

Model‐based fault diagnosis of networked systems: A survey

Song

2021

“…In the 2015 Ukraine Blackout, attackers were able to wrest control from substation control centers through false data-injection attack [27]. Referenced by previous studies [2][3][4][5], the data-injection attacks for controller and sensor are modeled as dual unknown interference inputs to deal with any possible attacks. Through designing the effective method, the dual interference decouple can be decoupled in the filtering process without requiring any known attack information.…”

Section: Assumptionmentioning

confidence: 99%

“…The attacker may implement DoS attack on the sensor output communication link, resulting in the loss of transmission data. Besides, studies in Lu et al [4] and Mo et al [5] show that a new type of attack called a false data-injection attack can be directed at the system if some system parameters are known to the attacker. The attacker may maliciously inject false signals into the communication link from controller to actuator and the sensor to observer.…”

Section: Introductionmentioning

confidence: 99%

Secure state estimation for unmanned aircraft cyber‐physical systems under multiple attacks

Feng

Shu-hui

et al. 2022

By exploiting the communication infrastructure among the sensor, actuator, and control system, attackers may compromise the security of unmanned aircraft cyber‐physical systems, with techniques such as denial‐of‐service (DoS) attack, random attack, and data‐injection attack. In this paper, the data‐injection attacks for controller and sensor are modeled as the dual unknown disturbance inputs (dual‐UIs) appearing in dynamic and measurement model. The problem of secure state estimation under multiple attacks together with the DoS attack‐induced packet dropout is transformed into the problem of stochastic system state estimation under dual‐UIs together with the missing measurement. Therefore, a recursive dual‐UIs decoupling filter is proposed through minimizing the minimum upper bound of the estimation covariance. First, a Kalman‐like recursive filter scheme independent of the dual‐UIs is established to realize the unbiased estimation. Meanwhile, a lower bounded adaptive factor is introduced to depict the state related unknown dual‐UI that cannot be eliminated completely due to the randomly missing measurements. Then, the minimum upper bound of the estimation covariance is deduced via online scalar convex optimization, based on which the measurement coefficient matrix is derived under the dual‐UIs decoupling conditions. Finally, the sufficient condition for the convergence of the proposed filter is shown and the stability of the state estimate is investigated. Simulation cases of unmanned aircraft longitudinal flight control system verifies the effectiveness and superiority of the proposed method.

“…In Wang and Xu [14], a guaranteed cost control problem for a CPS under Dos jamming clear periodic attack with inherent packet dropout is solved via both state feedback and output feedback methods. In previous studies [15][16][17], a Kalman filtering problem is studied for nonlinear system with sensor saturation and randomly occurring false data injection attack. In Geng and Liu [18], a stability guaranteed self-triggered scheme is proposed to actively defend the denial of service (Dos) attacks.…”

Section: Introductionmentioning

confidence: 99%

Deception attack monitoring in vulnerable hydroelectric generator system

Sari

Sid

2021

This article deals with unknown deception attacks detection of hydroelectric generator. Such cyber attacks are switching disturbances that affect the input information transmitted from the power system stabilizer to the plant through a constrained communication network. The generator dynamics can be modeled as an augmented state model, whereas the unknown input reconstruction is obtained from a modified Kalman filter recursions under communication constraints. The obtained design ensures the minimization of disturbances with accurate cyberattack monitoring.