Timed Failure Propagation Graphs (TFPGs) are used in the design of safety-critical systems as a way of modeling failure propagation, and to evaluate and implement diagnostic systems. TFPGs are mostly produced manually, from a given dynamic system of greater complexity. In this paper we present a technique to automate the construction of TFPGs. It takes as input a set of failure mode and discrepancy nodes and builds the graph on top of them, based on an exhaustive analysis of all system behaviors. The result is a TFPG that accurately represents the sequences of failures and their effects as they appear in the system model. The proposed approach has been implemented on top of state-of- the-art symbolic model-checking techniques, and thoroughl...
The Fault Tree (FT) is a stochastic model for the reliability analysis of complex and large system: ...
Behavior Trees are a graphical notation used for formalising functional requirements, and have been ...
This paper presents a framework to quantify failure propagation potential for complex, cyber-physica...
Timed Failure Propagation Graphs (TFPGs) are used in the design of safety-critical systems as a way ...
Timed Failure Propagation Graphs (TFPGs) have been widely used for the failure modeling and diagnosi...
Abstract — Timed failure propagation graphs (TFPG) are causal models that capture the temporal aspec...
Timed Failure Propagation Graphs (TFPGs) are used in the design of safety-critical systems as a way ...
Timed Failure Propagation Graphs (TFPGs) are a formalism used in industry to describe failure propag...
Timed Failure Propagation Graphs (TFPGs) are a formalism used in industry to describe failure propag...
Resilient and reliable operation of cyber physical systems of societal importance such as Smart Elec...
This paper presents an approach for robust diagnosis of switching systems based on an extended vers...
International audienceIn this paper, we address the problem of failure detection and localization in...
Classical Fault Tree Analysis (FTA) can determine the effects of combinations of failure events on a...
Reasoning about causes and effects naturally arises in the engineering of safety-critical systems. A...
An open area of research for complex, cyber-physical systems is how to adequately support decision m...
The Fault Tree (FT) is a stochastic model for the reliability analysis of complex and large system: ...
Behavior Trees are a graphical notation used for formalising functional requirements, and have been ...
This paper presents a framework to quantify failure propagation potential for complex, cyber-physica...
Timed Failure Propagation Graphs (TFPGs) are used in the design of safety-critical systems as a way ...
Timed Failure Propagation Graphs (TFPGs) have been widely used for the failure modeling and diagnosi...
Abstract — Timed failure propagation graphs (TFPG) are causal models that capture the temporal aspec...
Timed Failure Propagation Graphs (TFPGs) are used in the design of safety-critical systems as a way ...
Timed Failure Propagation Graphs (TFPGs) are a formalism used in industry to describe failure propag...
Timed Failure Propagation Graphs (TFPGs) are a formalism used in industry to describe failure propag...
Resilient and reliable operation of cyber physical systems of societal importance such as Smart Elec...
This paper presents an approach for robust diagnosis of switching systems based on an extended vers...
International audienceIn this paper, we address the problem of failure detection and localization in...
Classical Fault Tree Analysis (FTA) can determine the effects of combinations of failure events on a...
Reasoning about causes and effects naturally arises in the engineering of safety-critical systems. A...
An open area of research for complex, cyber-physical systems is how to adequately support decision m...
The Fault Tree (FT) is a stochastic model for the reliability analysis of complex and large system: ...
Behavior Trees are a graphical notation used for formalising functional requirements, and have been ...
This paper presents a framework to quantify failure propagation potential for complex, cyber-physica...