The presentation shows the application of the theory of structural analysis for the design of distributed fault diagnosis systems. Fault-Driven Minimal Structurally-Overdetermined (FMSO) sets are used in a distributed context to derive local tests and to build relevant tests minimizing shared information between subsystems
In this paper, we present a unified framework for distributed diagnosis. We first introduce the conc...
Abstract—Complex engineering systems require efficient on-line fault diagnosis methodologies to impr...
International audienceIn model-based diagnosis (MBD), structural models can provide useful informati...
International audienceDistributed diagnosis is important for complex systems as a way to reduce comp...
International audienceDistributed diagnosis is important for on-board systems as a way to reduce com...
The recent development of technological systems implies a high complexity of behaviors for today’s ...
This paper presents a framework for distributed fault detection and isolation in dynamic systems. Ou...
International audienceCentralized fault diagnosis architectures are sometimes prohibitive for large-...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The increasing complexity and size of cyber-physical systems (e.g., aircraft, manufacturing processe...
International audienceDecomposing is one way to gain efficiency when dealing with large scale system...
Complex engineering systems require efficient fault diagnosis methodologies, but centralized ap-proa...
International audienceHealth monitoring of current complex systems significantly impacts the total c...
Complex engineering systems require efficient on-line fault diagnosis methodologies to improve safet...
In this paper, a methodology for distributed fault diagnosis is proposed. The algorithm p...
In this paper, we present a unified framework for distributed diagnosis. We first introduce the conc...
Abstract—Complex engineering systems require efficient on-line fault diagnosis methodologies to impr...
International audienceIn model-based diagnosis (MBD), structural models can provide useful informati...
International audienceDistributed diagnosis is important for complex systems as a way to reduce comp...
International audienceDistributed diagnosis is important for on-board systems as a way to reduce com...
The recent development of technological systems implies a high complexity of behaviors for today’s ...
This paper presents a framework for distributed fault detection and isolation in dynamic systems. Ou...
International audienceCentralized fault diagnosis architectures are sometimes prohibitive for large-...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The increasing complexity and size of cyber-physical systems (e.g., aircraft, manufacturing processe...
International audienceDecomposing is one way to gain efficiency when dealing with large scale system...
Complex engineering systems require efficient fault diagnosis methodologies, but centralized ap-proa...
International audienceHealth monitoring of current complex systems significantly impacts the total c...
Complex engineering systems require efficient on-line fault diagnosis methodologies to improve safet...
In this paper, a methodology for distributed fault diagnosis is proposed. The algorithm p...
In this paper, we present a unified framework for distributed diagnosis. We first introduce the conc...
Abstract—Complex engineering systems require efficient on-line fault diagnosis methodologies to impr...
International audienceIn model-based diagnosis (MBD), structural models can provide useful informati...