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 a very rich formalism: they allow to model Boolean combinations of faults and events, also dependent on the operational modes of the system and quantitative delays between them. TFPGs are often produced manually, from a given dynamic system of greater complexity, as abstract representations of the system behavior under specific faulty conditions. In this paper we tackle two key difficulties in this process: first, how to make sure that no important behavior of the sys- tem is overlooked in the TFPG, and that no spurious, non-existent behavior is intr...
The design of complex safety critical systems raises new technical challenges for the industry. As s...
Reasoning about causes and effects naturally arises in the engineering of safety-critical systems. A...
We formally verify four algorithms proposed in [M. Larrea, S. Arévalo and A. Fernández, Efficient Al...
Timed Failure Propagation Graphs (TFPGs) are used in the design of safety-critical systems as a way ...
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...
This paper presents an approach for robust diagnosis of switching systems based on an extended vers...
The increasing use of model-based tools enables further use of formal verification techniques in the...
In this paper we present a consistency-based robust diagnosis approach for a class of temporal cau...
Resilient and reliable operation of cyber physical systems of societal importance such as Smart Elec...
International audienceThe design of complex safety critical systems raises new technical challenges ...
The design of complex safety critical systems raises new technical challenges for the industry. As s...
Reasoning about causes and effects naturally arises in the engineering of safety-critical systems. A...
We formally verify four algorithms proposed in [M. Larrea, S. Arévalo and A. Fernández, Efficient Al...
Timed Failure Propagation Graphs (TFPGs) are used in the design of safety-critical systems as a way ...
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...
This paper presents an approach for robust diagnosis of switching systems based on an extended vers...
The increasing use of model-based tools enables further use of formal verification techniques in the...
In this paper we present a consistency-based robust diagnosis approach for a class of temporal cau...
Resilient and reliable operation of cyber physical systems of societal importance such as Smart Elec...
International audienceThe design of complex safety critical systems raises new technical challenges ...
The design of complex safety critical systems raises new technical challenges for the industry. As s...
Reasoning about causes and effects naturally arises in the engineering of safety-critical systems. A...
We formally verify four algorithms proposed in [M. Larrea, S. Arévalo and A. Fernández, Efficient Al...