The problem of fault diagnosis in hybrid systems is investigated. It is assumed that the hybrid systems under consideration consist of a finite automaton, a set of nonlinear difference equations and the so-called mode activator that coordinates the action of the other two parts. To solve the fault diagnosis problem, hybrid residual generators based on both diagnostic observers and parity relations are used. It is shown that the hybrid nature of the system imposes some restrictions on the possibility of creating such generators. Sufficient solvability conditions of the fault diagnosis problem are found. Examples illustrate details of the solution
Fault diagnosis in physical systems turn out to become very complex as soon as the considered system...
Stringent reliability and maintainability requirements for modern complex systems demand the develop...
The premise of model-based diagnosis is that the system for diagnosing is diagnosable. Previous meth...
Hybrid systems play an important role in the modeling of complex systems since they take into accoun...
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
In this paper, a design methodology for building diagnosers for hybrid systems is proposed. The desi...
In this paper we aim at checking fault reconfigurability in hybrid systems. A hybrid system is a sys...
In this paper, a design methodology and implementation architecure for diagnosers in the framework o...
This paper presents an online monitoring and fault diagnosis architecture for hybrid systems with no...
We address the problem of model-based fault diagnosis for hybrid numeric/symbolic dynamical systems....
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
In this paper we apply a method for diagnosing faults on hybrid systems to a model of a camera mount...
This paper gives an analysis of fault detection and diagnosis (FDD) from a hybrid system point of vi...
Fault diagnosis in physical systems turn out to become very complex as soon as the considered system...
Stringent reliability and maintainability requirements for modern complex systems demand the develop...
The premise of model-based diagnosis is that the system for diagnosing is diagnosable. Previous meth...
Hybrid systems play an important role in the modeling of complex systems since they take into accoun...
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
In this paper, a design methodology for building diagnosers for hybrid systems is proposed. The desi...
In this paper we aim at checking fault reconfigurability in hybrid systems. A hybrid system is a sys...
In this paper, a design methodology and implementation architecure for diagnosers in the framework o...
This paper presents an online monitoring and fault diagnosis architecture for hybrid systems with no...
We address the problem of model-based fault diagnosis for hybrid numeric/symbolic dynamical systems....
Physical systems can fail. For this reason the problem of identifying and reacting to faults has rec...
In this paper we apply a method for diagnosing faults on hybrid systems to a model of a camera mount...
This paper gives an analysis of fault detection and diagnosis (FDD) from a hybrid system point of vi...
Fault diagnosis in physical systems turn out to become very complex as soon as the considered system...
Stringent reliability and maintainability requirements for modern complex systems demand the develop...
The premise of model-based diagnosis is that the system for diagnosing is diagnosable. Previous meth...