Optimal robust fault detection of discrete‐time LPV systems with measurement error‐affected scheduling variables combining ZKF and pQP

DOI10.1002/rnc.5138zbMath1525.93441OpenAlexW3048896196MaRDI QIDQ6054894

Feng Xu, Unnamed Author, Xueqian Wang, Sorin Olaru, Bin Liang

Publication date: 25 October 2023

Published in: International Journal of Robust and Nonlinear Control (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1002/rnc.5138

zbMATH Keywords

state estimation LPV systems inexact scheduling variables optimal robust fault detection

Mathematics Subject Classification ID

Filtering in stochastic control theory (93E11) Discrete-time control/observation systems (93C55) Estimation and detection in stochastic control theory (93E10) Linear systems in control theory (93C05)

Related Items (6)

Input design for integrated active fault diagnosis and output tracking control ⋮ A novel geometry optimization strategy to online active fault diagnosis of LPV systems ⋮ Confidence set-based analysis of minimal detectable fault under hybrid Gaussian and bounded uncertainties ⋮ Exclusion tendency-based observer design framework for active fault diagnosis ⋮ Observer gain optimization for minimization of minimal robust positively invariant set and invariant set-based fault detection ⋮ Set-based guaranteed active fault diagnosis for LPV systems with unknown bounded uncertainties

Cites Work

This page was built for publication: Optimal robust fault detection of discrete‐time LPV systems with measurement error‐affected scheduling variables combining ZKF and pQP