This paper proposes a discrete-time robust fault estimation scheme based on an interval Takagi-Sugeno Unknown Input Observer (UIO). The designed observer allows the interval estimation of states and faults by considering that the uncertainty is modelled in a deterministic bounded context. Furthermore, in the observer design, the effect of uncertainty is minimized using the H8 criterion using a LMI formulation. The proposed estimation scheme allows not only to provide the nominal value for states and faults but also an uncertainty interval where they should lie. A permanent magnet DC motor is used as a case study to assess the proposed approachPeer ReviewedPostprint (author's final draft
The paper is devoted to the problem of designing robust unknown input observer (UIO) for fault estim...
In this paper, the problem of robust fault detection using an interval observer for dynamic systems ...
This paper proposes a robust guaranteed state estimation method with application to fault detection ...
This paper proposes a discrete-time robust fault estimation scheme based on an interval Takagi-Sugen...
This paper presents a simultaneous state variables and system and actuator fault estimation, based o...
In this paper, a robust unknown input observer (UIO) for the joint state and fault estimation in dis...
Fault estimation plays an important role in the fault diagnosis system since provides information ab...
This paper deals with the design of robust fault detection system for Takagi-Sugeno (T-S) modes with...
In this paper, a novel approach is proposed to design a robust fault detection observer for uncertai...
The paper presents a robust fault estimation approach for a class of nonlinear discrete-time systems...
Abstract: This paper presents the problem of robust fault detection using unknown-input interval obs...
In this paper the problem of robust fault detection using an interval observer for dynamic systems c...
Active fault detection facilitates determination of the fault characteristics by injecting proper au...
This paper deals with the problem of fault detection for linear uncertain time-delay systems. The pr...
The paper is devoted to the problem of designing robust unknown input observer (UIO) for fault estim...
In this paper, the problem of robust fault detection using an interval observer for dynamic systems ...
This paper proposes a robust guaranteed state estimation method with application to fault detection ...
This paper proposes a discrete-time robust fault estimation scheme based on an interval Takagi-Sugen...
This paper presents a simultaneous state variables and system and actuator fault estimation, based o...
In this paper, a robust unknown input observer (UIO) for the joint state and fault estimation in dis...
Fault estimation plays an important role in the fault diagnosis system since provides information ab...
This paper deals with the design of robust fault detection system for Takagi-Sugeno (T-S) modes with...
In this paper, a novel approach is proposed to design a robust fault detection observer for uncertai...
The paper presents a robust fault estimation approach for a class of nonlinear discrete-time systems...
Abstract: This paper presents the problem of robust fault detection using unknown-input interval obs...
In this paper the problem of robust fault detection using an interval observer for dynamic systems c...
Active fault detection facilitates determination of the fault characteristics by injecting proper au...
This paper deals with the problem of fault detection for linear uncertain time-delay systems. The pr...
The paper is devoted to the problem of designing robust unknown input observer (UIO) for fault estim...
In this paper, the problem of robust fault detection using an interval observer for dynamic systems ...
This paper proposes a robust guaranteed state estimation method with application to fault detection ...