A method for designing fault diagnosis filters for LPV polytopic systems

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DOI10.1155/2008/231697zbMath1229.93065OpenAlexW2048958882WikidataQ58646018 ScholiaQ58646018MaRDI QIDQ983339

David Henry, Sylvain Grenaille, Ali Zolghadri

Publication date: 22 July 2010

Published in: Journal of Control Science and Engineering (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1155/2008/231697

Mathematics Subject Classification ID

Sensitivity (robustness) (93B35) Design techniques (robust design, computer-aided design, etc.) (93B51)

Related Items (21)

Actuator multiplicative fault estimation in discrete-time LPV systems using switched observers ⋮ Robust fault reconstruction for linear parameter varying systems using sliding mode observers ⋮ Fault reconstruction using a LPV sliding mode observer for a class of LPV systems ⋮ Structured fault detection filters for LPV systems modeled in an LFR manner ⋮ Fault diagnosis for a class of descriptor linear parameter‐varying systems ⋮ Fault detection and isolation in linear parameter‐varying descriptor systems via proportional integral observer ⋮ Robust fault detection based on adaptive threshold generation using interval LPV observers ⋮ Robust fault detection observer design for linear uncertain systems ⋮ Fault detection and isolation of electrical induction motors via LPV fault observers: A case study ⋮ H_∞ ∕ H₋ LPV solutions for fault detection of aircraft actuator faults: Bridging the gap between theory and practice ⋮ Actuator fault estimation based adaptive polytopic observer for a class of LPV descriptor systems ⋮ Fault estimation and active fault tolerant control for linear parameter varying descriptor systems ⋮ \(H_{-}/H_{\infty}\) fault detection observer design for a polytopic LPV system using the relative degree ⋮ Fault reconstruction in descriptor linear parameter-varying systems via polytopic unknown-input proportional-integral observers ⋮ UIO design for singular delayed LPV systems with application to actuator fault detection and isolation ⋮ A LPV modeling of turbocharged spark-ignition automotive engine oriented to fault detection and isolation purposes ⋮ LMI solutions to the mixed ℋ︁−/ℋ︁∞ fault detection observer design for linear parameter-varying systems ⋮ Integrated fault detection and control for LPV systems ⋮ Simultaneous actuator and sensor fault estimation for descriptor LPV system based on H _∞ reduced ⋮ LPV design of fault-tolerant control for road vehicles ⋮ Actuator fault diagnosis for flat systems: A constraint satisfaction approach

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