Interval observer-based fault detectability analysis using mixed set-invariance theory and sensitivity analysis approach
DOI10.1080/00207721.2018.1563221zbMath1482.93221OpenAlexW2909825107WikidataQ128622779 ScholiaQ128622779MaRDI QIDQ5027919
Carlos Ocampo-Martinez, Masoud Pourasghar, Vicenç Puig
Publication date: 7 February 2022
Published in: International Journal of Systems Science (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/2117/133612
fault detectionsensitivity analysiszonotopesbounded uncertaintiesminimum detectable faultinterval observer-based approachset-invariance approach
Discrete-time control/observation systems (93C55) Linear systems in control theory (93C05) Observers (93B53)
Related Items (4)
Cites Work
- Unnamed Item
- Model-based fault detection, estimation, and prediction for a class of linear distributed parameter systems
- Robust observer-based fault estimation and accommodation of discrete-time piecewise linear systems
- Causal fault detection and isolation based on a set-membership approach
- Guaranteed state estimation by zonotopes
- Theory and computation of disturbance invariant sets for discrete-time linear systems
- Fault detection for LPV systems using set-valued observers: a coprime factorization approach
- Zonotopes and Kalman observers: gain optimality under distinct uncertainty paradigms and robust convergence
- An LMI approach to design robust fault detection filter for uncertain LTI systems.
- Finite-horizon \(H_{\infty }\) fault estimation for linear discrete time-varying systems with delayed measurements
- Feedback and invariance under uncertainty via set-iterates
- Multisensor switching control strategy with fault tolerance guarantees
- Non-conservative ultimate bound estimation in LTI perturbed systems
- Set-theoretic methods in robust detection and isolation of sensor faults
- Active fault detection and isolation of discrete-time linear time-varying systems: a set-membership approach
- Set-membership fault detection under noisy environment with application to the detection of abnormal aircraft control surface positions
- Adaptive threshold generation in robust fault detection using interval models: time-domain and frequency-domain approaches
- A discrete-time parameter estimation based adaptive actuator failure compensation control scheme
- Fault diagnosis and fault tolerant control using set-membership approaches: Application to real case studies
- Actuator fault-tolerant control based on set separation
- A systematic method to obtain ultimate bounds for perturbed systems
- Generalized set‐theoretic unknown input observer for LPV systems with application to state estimation and robust fault detection
- Invariant approximations of the minimal robust positively Invariant set
- Interval State Estimation for a Class of Nonlinear Systems
- Actuator fault tolerant multi-controller scheme using set separation based diagnosis
- Diagnosis and Fault-Tolerant Control
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