Assurance cases are often required to certify critical systems. The use of formal methods in assurance can improve automation, increase confidence, and overcome errant reasoning. However, assurance cases can never be fully formalised, as the use of formal methods is contingent on models that are validated by informal processes. Consequently, assurance techniques should support both formal and informal artifacts, with explicated inferential links between them. In this paper, we contribute a formal machine-checked interactive language, called Isabelle/SACM, supporting the computer-assisted construction of assurance cases compliant with the OMG Structured Assurance Case Meta-Model. The use of Isabelle/SACM guarantees well-formedness, consisten...
We describe a generic approach for automatically integrating the output generated from a formal meth...
Authenticated data structures are a technique for outsourcing data storage and maintenance to an unt...
The basic motivation of this work is to make formal theory developments with machine-checked proofs ...
Assurance cases (ACs) are often required to certify critical systems. The use of integrated formal m...
Abstract Isabelle/SACM is a tool for automated construction of model-based assurance cases with int...
Isabelle/SACM is a tool for automated construction of model-based assurance cases with integrated fo...
Proof-carrying code (PCC) provides a 'gold standard' for establishing formal and objective confidenc...
Security modeling is the foundation to formal verification which is a core requirement for high ass...
An assurance case comprises evidence and argument showing how that evidence supports assurance claim...
Formal proofs, interactively developed and machine-checked, are a means to achieve the highest level...
Assurance cases can be used to argue for the safety of products in safety engineering. In safety-cri...
Assurance cases are used to demonstrate confidence in properties of interest for a system, e.g. For ...
The growing complexity and diversity of models used for engineering dependable systems implies that ...
Assurance Cases (ACs) are used for justifying system confidence in important properties including sa...
In this paper, we propose the use of interactive the- orem proving for explainable machine learning....
We describe a generic approach for automatically integrating the output generated from a formal meth...
Authenticated data structures are a technique for outsourcing data storage and maintenance to an unt...
The basic motivation of this work is to make formal theory developments with machine-checked proofs ...
Assurance cases (ACs) are often required to certify critical systems. The use of integrated formal m...
Abstract Isabelle/SACM is a tool for automated construction of model-based assurance cases with int...
Isabelle/SACM is a tool for automated construction of model-based assurance cases with integrated fo...
Proof-carrying code (PCC) provides a 'gold standard' for establishing formal and objective confidenc...
Security modeling is the foundation to formal verification which is a core requirement for high ass...
An assurance case comprises evidence and argument showing how that evidence supports assurance claim...
Formal proofs, interactively developed and machine-checked, are a means to achieve the highest level...
Assurance cases can be used to argue for the safety of products in safety engineering. In safety-cri...
Assurance cases are used to demonstrate confidence in properties of interest for a system, e.g. For ...
The growing complexity and diversity of models used for engineering dependable systems implies that ...
Assurance Cases (ACs) are used for justifying system confidence in important properties including sa...
In this paper, we propose the use of interactive the- orem proving for explainable machine learning....
We describe a generic approach for automatically integrating the output generated from a formal meth...
Authenticated data structures are a technique for outsourcing data storage and maintenance to an unt...
The basic motivation of this work is to make formal theory developments with machine-checked proofs ...