AbstractWe prove that testing preorder of De Nicola and Hennessy is preserved by all operators of De Simone process languages. Building upon this result we propose an algorithm for generating axiomatisations of testing preorder for arbitrary De Simone process languages. The axiom systems produced by our algorithm are finite and complete for processes with finite behaviour. In order to achieve completeness for a subclass of processes with infinite behaviour we use one infinitary induction rule. The usefulness of our results is illustrated in specification and verification of small concurrent systems, where suspension, resumption and alternation of execution of component systems occur. We argue that better specifications can be written in cus...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...
We consider an extension of the class of logic programs, called !-programs, that can be used to def...
textThe goal of formal verification is to use mathematical methods to prove that a computing system...
We prove that testing preorder of De Nicola and Hennessy is preserved by all De Simone process opera...
AbstractWe prove that testing preorder of De Nicola and Hennessy is preserved by all operators of De...
Process Algebras are rapidly becoming a mathe-matical model used by verification engineers to extend...
We establish principles for proving properties about infinite computations by reasoning about finit...
AbstractThis paper deals with the formal verification of finite state systems that hav an arbitrary ...
This thesis is about the verification problem of systems having an infinite number of states. These ...
AbstractThere are two ways to define a semantics for process algebras: either directly by means of a...
In the process-algebraic verification of systems with three or more components put in parallel, alp...
Recently, Aceto, Fokkink and Ingólfsdóttir proposed an algorithm to turn any sound and ground-comple...
Recently, Aceto, Fokkink and Ingólfsdóttir proposed an algorithm to turn any sound and ground-comple...
AbstractThe paper shows that, by an appropriate choice of a rich assertional language, it is possibl...
AbstractWe introduce ω-extended regular expressions (ωEREs) that can be used for specifying and prov...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...
We consider an extension of the class of logic programs, called !-programs, that can be used to def...
textThe goal of formal verification is to use mathematical methods to prove that a computing system...
We prove that testing preorder of De Nicola and Hennessy is preserved by all De Simone process opera...
AbstractWe prove that testing preorder of De Nicola and Hennessy is preserved by all operators of De...
Process Algebras are rapidly becoming a mathe-matical model used by verification engineers to extend...
We establish principles for proving properties about infinite computations by reasoning about finit...
AbstractThis paper deals with the formal verification of finite state systems that hav an arbitrary ...
This thesis is about the verification problem of systems having an infinite number of states. These ...
AbstractThere are two ways to define a semantics for process algebras: either directly by means of a...
In the process-algebraic verification of systems with three or more components put in parallel, alp...
Recently, Aceto, Fokkink and Ingólfsdóttir proposed an algorithm to turn any sound and ground-comple...
Recently, Aceto, Fokkink and Ingólfsdóttir proposed an algorithm to turn any sound and ground-comple...
AbstractThe paper shows that, by an appropriate choice of a rich assertional language, it is possibl...
AbstractWe introduce ω-extended regular expressions (ωEREs) that can be used for specifying and prov...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...
We consider an extension of the class of logic programs, called !-programs, that can be used to def...
textThe goal of formal verification is to use mathematical methods to prove that a computing system...