Proofs provide detailed justification for the validity of claims and are widely used in formal software development methods. However, they are often complex and difficult to understand, because they use machine-oriented formalisms; they may also be based on assumptions that are not justified. This causes concerns about the trustworthiness of using formal proofs as arguments in safety-critical applications. Here, we present an approach to develop safety cases that correspond to formal proofs found by automated theorem provers and reveal the underlying argumentation structure and top-level assumptions. We concentrate on natural deduction proofs and show how to construct the safety cases by covering the proof tree with corresponding safety cas...
We present an approach to systematically derive safety cases for automatically generated code from i...
Safety cases are increasingly being required in many safety-critical domains to assure, using struct...
Model-based development and automated code generation are increasingly used for actual production co...
Proofs provide detailed justification for the validity of claims and are widely used in formal softw...
Formal proofs provide detailed justification for the validity of claims and are widely used in forma...
Formal methods can in principle provide the highest levels of assurance of code safety by providing ...
Model-based development and automated code generation are increasingly used for actual production co...
Formal methods can in principle provide the highest levels of assurance of code safety by providing ...
We present an approach to systematically derive safety cases for automatically generated code from i...
In principle, formal methods offer many advantages for aerospace software development: they can help...
Proof-carrying code (PCC) provides a 'gold standard' for establishing formal and objective confidenc...
We describe a generic approach for automatically integrating the output generated from a formal meth...
AbstractWe present an approach to systematically derive safety cases for automatically generated cod...
An assurance case comprises evidence and argument showing how that evidence supports assurance claim...
The amount and complexity of software developed during the last few years has increased tremendously...
We present an approach to systematically derive safety cases for automatically generated code from i...
Safety cases are increasingly being required in many safety-critical domains to assure, using struct...
Model-based development and automated code generation are increasingly used for actual production co...
Proofs provide detailed justification for the validity of claims and are widely used in formal softw...
Formal proofs provide detailed justification for the validity of claims and are widely used in forma...
Formal methods can in principle provide the highest levels of assurance of code safety by providing ...
Model-based development and automated code generation are increasingly used for actual production co...
Formal methods can in principle provide the highest levels of assurance of code safety by providing ...
We present an approach to systematically derive safety cases for automatically generated code from i...
In principle, formal methods offer many advantages for aerospace software development: they can help...
Proof-carrying code (PCC) provides a 'gold standard' for establishing formal and objective confidenc...
We describe a generic approach for automatically integrating the output generated from a formal meth...
AbstractWe present an approach to systematically derive safety cases for automatically generated cod...
An assurance case comprises evidence and argument showing how that evidence supports assurance claim...
The amount and complexity of software developed during the last few years has increased tremendously...
We present an approach to systematically derive safety cases for automatically generated code from i...
Safety cases are increasingly being required in many safety-critical domains to assure, using struct...
Model-based development and automated code generation are increasingly used for actual production co...