On \(H_{\infty}\) fault estimator design for linear discrete time-varying systems under unreliable communication link
From MaRDI portal
Publication:1718190
DOI10.1155/2014/358601zbMath1407.93114OpenAlexW2060958654WikidataQ59064542 ScholiaQ59064542MaRDI QIDQ1718190
Zhonghua Wang, Xuehua Yan, Shuai Liu, Yueyang Li
Publication date: 8 February 2019
Published in: Mathematical Problems in Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1155/2014/358601
Cites Work
- \(H_\infty\) fixed-lag smoothing for linear discrete time-varying systems with uncertain observations
- Fault detection for nonlinear networked control systems with Markov data transmission pattern
- Fault detection for linear discrete time-varying systems with measurement packet dropping
- Linear estimation for random delay systems
- Optimal fault detection for linear discrete time-varying systems
- Control and estimation of systems with input/output delays.
- Robust fault detection and isolation of time-delay systems using a geometric approach
- A time domain approach to robust fault detection of linear time-varying systems
- Finite-horizon \(H_{\infty }\) fault estimation for linear discrete time-varying systems with delayed measurements
- \(\mathcal{H}_-/\mathcal{H}_\infty \) fault detection filter design for discrete-time Takagi-Sugeno fuzzy system
- Event-based fault detection for networked systems with communication delay and nonlinear perturbation
- \(H_{\infty}\) fault detection for nonlinear networked systems with multiple channels data transmission pattern
- \(H_{\infty}\) fixed-lag smoothing for discrete linear time-varying systems
- A robust deconvolution scheme for fault detection and isolation of uncertain linear systems: an LMI approach
- Krein Space-based <I>H</I>θ Fault Estimation for Linear Discrete Time-varying Systems
- Optimal fault signal estimation
- Adaptive Kalman Filtering in Networked Systems With Random Sensor Delays, Multiple Packet Dropouts and Missing Measurements
- Optimal Linear Estimators for Systems With Random Sensor Delays, Multiple Packet Dropouts and Uncertain Observations
- Linear estimation in Krein spaces. I. Theory
- On Designing $H_{\infty}$ Fault Detection Filter for Linear Discrete Time-Varying Systems
- Robust fault detection for Markovian jump systems with unreliable communication links
- A Reorganized Innovation Approach to Linear Estimation
- Distributed Fault Detection and Isolation of Large-Scale Discrete-Time Nonlinear Systems: An Adaptive Approximation Approach
- Robust Adaptive Failure Compensation of Hysteretic Actuators for a Class of Uncertain Nonlinear Systems
- Diagnosis and Fault-Tolerant Control
This page was built for publication: On \(H_{\infty}\) fault estimator design for linear discrete time-varying systems under unreliable communication link
