Structural analysis is a standard tool to identify submodels that can be used to design model based diagnostic tests. Structural approaches typically operate on models described by a set of equations. This work extends such methods to be able to handle models with constraints, e.g. inequality constraints on state variables. The objective is to improve isolability properties of a diagnosis system by extending the class of redundancy relations. An algorithm is developed that identifies which are the constraints and equations that can be used together to derive a new test that can not be found using previous approachesCADIC
International audienceAdequate sensor placement is a necessary condition for efficient fault diagnos...
We present two techniques of reasoning about diag-nosis. The first uses relational databases to repr...
The presentation shows the application of the theory of structural analysis for the design of distri...
When designing model-based fault-diagnosis systems, the use of consistency relations (also called e....
In complex and automated technological processes the effects of a fault can quickly propagate and le...
International audienceThis paper deals with fault detection methods taking model uncertainties into ...
Structural criteria generally divide the input domain of the program under test and require the exec...
Aiming at design of algorithms for fault diagnosis, structural analysis of systems offers concise ye...
When designing model-based fault-diagnosis systems, the use of consistency relations (also called e....
When designing model-based fault-diagnostic systems, the use of consistency relations (also called e...
Abstract: In this paper, the robust fault diagnosis problem for non-linear systems considering both ...
Abstract: Aiming at design of algorithms for fault diagnosis, structural analysis of systems offers ...
An analysis of a system’s structural model is used to extract available inherent redundant informati...
Isolability of faults is a key issue in fault diagnosis whether the aim is maintenance or active fau...
The performance of a model-based diagnosis system could be affected by several uncertainty sources, ...
International audienceAdequate sensor placement is a necessary condition for efficient fault diagnos...
We present two techniques of reasoning about diag-nosis. The first uses relational databases to repr...
The presentation shows the application of the theory of structural analysis for the design of distri...
When designing model-based fault-diagnosis systems, the use of consistency relations (also called e....
In complex and automated technological processes the effects of a fault can quickly propagate and le...
International audienceThis paper deals with fault detection methods taking model uncertainties into ...
Structural criteria generally divide the input domain of the program under test and require the exec...
Aiming at design of algorithms for fault diagnosis, structural analysis of systems offers concise ye...
When designing model-based fault-diagnosis systems, the use of consistency relations (also called e....
When designing model-based fault-diagnostic systems, the use of consistency relations (also called e...
Abstract: In this paper, the robust fault diagnosis problem for non-linear systems considering both ...
Abstract: Aiming at design of algorithms for fault diagnosis, structural analysis of systems offers ...
An analysis of a system’s structural model is used to extract available inherent redundant informati...
Isolability of faults is a key issue in fault diagnosis whether the aim is maintenance or active fau...
The performance of a model-based diagnosis system could be affected by several uncertainty sources, ...
International audienceAdequate sensor placement is a necessary condition for efficient fault diagnos...
We present two techniques of reasoning about diag-nosis. The first uses relational databases to repr...
The presentation shows the application of the theory of structural analysis for the design of distri...