AbstractWith the increasing scale and complexity of modern systems, traditional safety analysis methods such as FTA, FMEA seem inconvenient to use. Automated safety analysis based on formal models has become popular. In this paper, we took the Altarica data-flow language as the research object, and specified how to extract failure logic relations from Altarica component models and system models to generate fault trees (FTs), and proved its validity through instance verification. Fault tree generation method proposed in this paper would provide a basis for the development of automated safety analysis tools based on Altarica
International audienceSafety and risk analyses rely on models. These models have several important c...
During the design stage of the development of a new system, automated fault tree construction would ...
AbstractSafety is an important requirement for many modern systems. To ensure safety of complex crit...
AbstractWith the increasing scale and complexity of modern systems, traditional safety analysis meth...
Formal methods and safety assessment are related domains interested by the behavioural analysis of c...
The Model-Based approach for safety and reliability analysis is gradually wining the trust of engine...
AbstractWith the increasing system scale and complexity, safety analysis based on formal models has ...
YesSafety-critical systems are becoming larger and more complex to obtain a higher level of function...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Altarica is a language used to describe critical systems. In this paper we present a novel approach ...
1Safety-critical systems, such as avionics systems and medical devices, are developed with stringent...
International audienceThe aim of this article is to present the AltaRica 3.0 project. " Traditional ...
Reliability and safety of complex software-intensive systems are proved to be a crucial matter since...
AbstractFormal models could accurately reflect design of systems and can be used to implement automa...
YesFault Tree Analysis (FTA) is a well-established and well-understood technique, widely used for d...
International audienceSafety and risk analyses rely on models. These models have several important c...
During the design stage of the development of a new system, automated fault tree construction would ...
AbstractSafety is an important requirement for many modern systems. To ensure safety of complex crit...
AbstractWith the increasing scale and complexity of modern systems, traditional safety analysis meth...
Formal methods and safety assessment are related domains interested by the behavioural analysis of c...
The Model-Based approach for safety and reliability analysis is gradually wining the trust of engine...
AbstractWith the increasing system scale and complexity, safety analysis based on formal models has ...
YesSafety-critical systems are becoming larger and more complex to obtain a higher level of function...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Altarica is a language used to describe critical systems. In this paper we present a novel approach ...
1Safety-critical systems, such as avionics systems and medical devices, are developed with stringent...
International audienceThe aim of this article is to present the AltaRica 3.0 project. " Traditional ...
Reliability and safety of complex software-intensive systems are proved to be a crucial matter since...
AbstractFormal models could accurately reflect design of systems and can be used to implement automa...
YesFault Tree Analysis (FTA) is a well-established and well-understood technique, widely used for d...
International audienceSafety and risk analyses rely on models. These models have several important c...
During the design stage of the development of a new system, automated fault tree construction would ...
AbstractSafety is an important requirement for many modern systems. To ensure safety of complex crit...