We study trace and may-testing equivalences in the asynchronous versions of CCS and π-calculus. We start from the operational definition of the may-testing preorder and provide finitary and fully abstract trace-based characterizations for it, along with a complete in-equational proof system. We also touch upon two variants of this theory by first considering a more demanding equivalence notion (must-testing) and then a richer version of asynchronous CCS. The results throw light on the difference between synchronous and asynchronous communication and on the weaker testing power of asynchronous observations
A timed process algebra is developed for evaluating the temporal worst-case efficiency of asynchrono...
AbstractThe impact of applying the testing approach to a calculus of processes with dynamic communic...
One of the early results about the asynchronous π-calculus which significantly contributed to its po...
AbstractWe study trace and may-testing equivalences in the asynchronous versions of CCS and π-calcul...
Asynchronous communication mechanisms are usually a basic ingredient of distributed systems and prot...
Abstract. Asynchronous communication mechanisms are usually at the basis of real distributed systems...
. We study testing preorders for an asynchronous version of CCS called TACCS, where message emissio...
We investigate asynchronous circuit verication using Dill's trace theory [1] as well as Milner&...
The relation between process calculi and Petri nets, two fundamental models of concurrency, has been...
International audienceThe relation between process calculi and Petri nets, two fundamental models of...
The relation between process calculi and Petri nets, two fundamental models of concurrency, has been...
We study may and must testing-based preorders in an asynchronous setting. In particular, we provide ...
Abstract The Actor model and π-calculus have served as the basis of a large body of research on conc...
173 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.The central idea behind our p...
Testing is one of the fundamental techniques for verifying if a computing system conforms to its spe...
A timed process algebra is developed for evaluating the temporal worst-case efficiency of asynchrono...
AbstractThe impact of applying the testing approach to a calculus of processes with dynamic communic...
One of the early results about the asynchronous π-calculus which significantly contributed to its po...
AbstractWe study trace and may-testing equivalences in the asynchronous versions of CCS and π-calcul...
Asynchronous communication mechanisms are usually a basic ingredient of distributed systems and prot...
Abstract. Asynchronous communication mechanisms are usually at the basis of real distributed systems...
. We study testing preorders for an asynchronous version of CCS called TACCS, where message emissio...
We investigate asynchronous circuit verication using Dill's trace theory [1] as well as Milner&...
The relation between process calculi and Petri nets, two fundamental models of concurrency, has been...
International audienceThe relation between process calculi and Petri nets, two fundamental models of...
The relation between process calculi and Petri nets, two fundamental models of concurrency, has been...
We study may and must testing-based preorders in an asynchronous setting. In particular, we provide ...
Abstract The Actor model and π-calculus have served as the basis of a large body of research on conc...
173 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.The central idea behind our p...
Testing is one of the fundamental techniques for verifying if a computing system conforms to its spe...
A timed process algebra is developed for evaluating the temporal worst-case efficiency of asynchrono...
AbstractThe impact of applying the testing approach to a calculus of processes with dynamic communic...
One of the early results about the asynchronous π-calculus which significantly contributed to its po...