Finite-time observer design for singular systems subject to unknown inputs
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Publication:6598680
DOI10.1049/iet-cta.2018.6038zbMath1544.93729MaRDI QIDQ6598680
Jian-Cheng Zhang, Fanglai Zhu, Mohammed Chadli
Publication date: 5 September 2024
Published in: IET Control Theory \& Applications (Search for Journal in Brave)
linear matrix inequalitiesobserverssingular systemsalgebraic methodstate equationsunknown inputsoutput equationsreference systemslinear matrix inequality methodfinite-time observer designobserver matching conditionobservability conditionFTO designnonsingular auxiliary dynamic systemsobserver parameterssub-observer designsystematical method
Cites Work
- Unnamed Item
- Unnamed Item
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- On complete and strong controllability for rectangular descriptor systems
- Observability and detectability of singular linear systems with unknown inputs
- Complexity, analysis and control of singular biological systems
- Stability analysis and stabilization for nonlinear continuous-time descriptor semi-Markov jump systems
- Exact state estimation for linear systems with unbounded disturbances
- Sliding-mode observers for systems with unknown inputs: a high-gain approach
- State and input estimation for a class of uncertain systems
- Finite-time stabilization for nonlinear discrete-time singular Markov jump systems with piecewise-constant transition probabilities subject to average dwell time
- Unknown input observers for singular systems designed by eigenstructure assignment
- Sliding mode observers for fault detection and isolation
- Observer-based output consensus of a class of heterogeneous multi-agent systems with unmatched disturbances
- Full- and reduced-order observer design for rectangular descriptor systems with unknown inputs
- Robust impulsive reset observers of a class of switched nonlinear systems with unknown inputs
- A novel sliding mode observer for state and fault estimation in systems not satisfying matching and minimum phase conditions
- A Finite Frequency Approach toH∞Filtering for T-S Fuzzy Systems with Unknown Inputs
- Further Enhancement on Robust $H_{\infty}$ Control Design for Discrete-Time Singular Systems
- Unknown Input and State Estimation for Unobservable Systems
- Observer design for linear systems with unknown inputs
- On the observer design for descriptor systems
- State/noise estimator for descriptor systems with application to sensor fault diagnosis
- Dwell-Time-Based Observer Design for Unknown Input Switched Linear Systems Without Requiring Strong Detectability of Subsystems
- Pole assignment for uncertain systems in a specified disk by state feedback
- Reduced-order observer design for descriptor systems with unknown inputs
- Unknown Input Observers for Switched Nonlinear Discrete Time Descriptor Systems
- Distributed fault estimation design of interconnected systems with external disturbances
- Reduced-Order Observer Design for Switched Descriptor Systems With Unknown Inputs
- A continuous-time observer which converges in finite time
- Unknown input proportional multiple-integral observer design for linear descriptor systems: application to state and fault estimation
- Delayed Observers for Linear Systems With Unknown Inputs
- Sliding Mode Observer-Based FTC for Markovian Jump Systems With Actuator and Sensor Faults
- Observers for linear systems with unknown inputs
Related Items (3)
Stabilization with unknown-input estimation for time-delayed systems using functional-observer-based feedback control design ⋮ Fault estimation for a class of nonlinear algebro-differential parameter-varying systems ⋮ Finite-time functional interval observer for linear systems with uncertainties
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