Zonotopic fault detection observer design for discrete-time systems with adaptively adjusted event-triggered mechanism
DOI10.1049/iet-cta.2019.0354zbMATH Open1544.9324MaRDI QIDQ6598693
Xudong Wang, Jinyong Yu, Zhenhua Wang, Zhongyang Fei
Publication date: 5 September 2024
Published in: IET Control Theory \& Applications (Search for Journal in Brave)
discrete-time systemsrobust controlobserversmeasurement noisefault diagnosisnetwork bandwidthmeasurement errors\(H^\infty\) controldiscrete time systemsexternal disturbancefinite frequency rangessystem failureadaptively adjusted event-triggered mechanismevent-triggered fault detection strategyevent-triggered system outputinjected faultszonotope-based residual evaluation strategyzonotopic fault detection observer design
Adaptive control/observation systems (93C40) Discrete-time control/observation systems (93C55) Discrete event control/observation systems (93C65) Observers (93B53)
Cites Work
- Zonotopal algebra and forward exchange matroids
- Robust fault estimation and fault-tolerant control for Markovian jump systems with general uncertain transition rates
- \(H_-/H_\infty\) fault detection observer in finite frequency domain for linear parameter-varying descriptor systems
- Zonotopes and Kalman observers: gain optimality under distinct uncertainty paradigms and robust convergence
- Joint state and fault estimation for time-varying nonlinear systems with randomly occurring faults and sensor saturations
- Mixed \(H_\infty\) and passivity-based resilient controller for nonhomogeneous Markov jump systems
- Fault detection filtering for nonlinear switched systems via event-triggered communication approach
- Dissipative analysis for network-based singular systems with non-fragile controller and event-triggered sampling scheme
- \(L_2\) control design of event-triggered networked control systems with quantizations
- Finite-time fault-tolerant control of neutral systems against actuator saturation and nonlinear actuator faults
- \(\mathcal{H}_-/\mathcal{H}_\infty \) fault detection filter design for discrete-time Takagi-Sugeno fuzzy system
- Modeling and stabilization of a wireless network control system with packet loss and time delay
- Fault detection for discrete-time systems with randomly occurring nonlinearity and data missing: a quadrotor vehicle example
- An LMI approach to \(\mathcal H_{-}\) index and mixed \(\mathcal H_{-} / \mathcal H_{\infty}\) fault detection observer design
- Set-theoretic methods in robust detection and isolation of sensor faults
- A linear matrix inequality approach to H∞ control
- Fault Detection for Linear Discrete Time-Varying Systems With Multiplicative Noise: The Finite-Horizon Case
- Zonotopic fault detection observer design for Takagi–Sugeno fuzzy systems
- Fault detection for vehicle active suspension systems in finite‐frequency domain
- Fault detection and isolation for discrete-time descriptor systems based on H−/L∞ observer and zonotopic residual evaluation
- Actuator fault estimation for a class of nonlinear descriptor systems
- H ∞ ∕ H − LPV solutions for fault detection of aircraft actuator faults: Bridging the gap between theory and practice
- Discrete‐time H − ∕ H ∞ sensor fault detection observer design for nonlinear systems with parameter uncertainty
- Simultaneous fault estimation and fault-tolerant tracking control for uncertain nonlinear discrete-time systems
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