Formal methods have significant benefits for developing safety critical systems, in that they allow for correctness proofs, model checking safety and liveness properties, deadlock checking, etc. However, formal methods do not scale very well and demand specialist skills, when developing real-world systems. For these reasons, development and analysis of large-scale safety critical systems will require effective integration of formal and informal methods. In this paper, we use such an integrative approach to automate Failure Modes and Effects Analysis (FMEA), a widely used system safety analysis technique, using a high-level graphical modelling notation (Behavior Trees) and model checking. We inject component failure modes into the Behavior T...
Safety-critical systems must be shown to be acceptably safe to deploy and use in their operational e...
Failure Mode and Effect Analysis (FMEA) is a popular safety and reliability analysis methodology for...
Behavior Trees are a graphical notation used for formalising functional requirements, and have been ...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Failure Modes and Effects Analysis (FMEA) is a widely used system and software safety analysis techn...
To address challenges arising in the safety assessment of critical engineering systems, research has...
Emerging safety analysis techniques use composition of failure models or fault simulation in formal ...
Today’s technical systems complexity is increasing in most industrial domains. In combination with t...
© 2020, Springer Nature Switzerland AG. Failure Mode Reasoning (FMR) is a novel approach for analyzi...
Components in programmable systems often exhibit patterns of failure that are independent of functio...
Safety-critical systems are becoming more complex, both in the type of functionality they provide an...
Fault tree analysis, the most widely used safety analysis technique in industry, is often applied ma...
Failure Mode and Effects Analysis (FMEA) is a well-known technique widely used for safety assessment...
For complex engineered systems, it is important to conduct technical risk assessment early in the sy...
Components and families of components in mechatronic systems often exhibit failure characteristics t...
Safety-critical systems must be shown to be acceptably safe to deploy and use in their operational e...
Failure Mode and Effect Analysis (FMEA) is a popular safety and reliability analysis methodology for...
Behavior Trees are a graphical notation used for formalising functional requirements, and have been ...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Failure Modes and Effects Analysis (FMEA) is a widely used system and software safety analysis techn...
To address challenges arising in the safety assessment of critical engineering systems, research has...
Emerging safety analysis techniques use composition of failure models or fault simulation in formal ...
Today’s technical systems complexity is increasing in most industrial domains. In combination with t...
© 2020, Springer Nature Switzerland AG. Failure Mode Reasoning (FMR) is a novel approach for analyzi...
Components in programmable systems often exhibit patterns of failure that are independent of functio...
Safety-critical systems are becoming more complex, both in the type of functionality they provide an...
Fault tree analysis, the most widely used safety analysis technique in industry, is often applied ma...
Failure Mode and Effects Analysis (FMEA) is a well-known technique widely used for safety assessment...
For complex engineered systems, it is important to conduct technical risk assessment early in the sy...
Components and families of components in mechatronic systems often exhibit failure characteristics t...
Safety-critical systems must be shown to be acceptably safe to deploy and use in their operational e...
Failure Mode and Effect Analysis (FMEA) is a popular safety and reliability analysis methodology for...
Behavior Trees are a graphical notation used for formalising functional requirements, and have been ...