Behavioural equivalences on open systems are usually defined by comparing system behaviour in all environments. Here, we introduce a hierarchy of behavioural equivalences for open systems in the setting of process calculi, building on a symbolic approach proposed in a previous paper. The hierarchy comprises both branching, bisimulation-based, and non-branching, trace-based, equivalences. Symbolic equivalences are amenable to effective analysis techniques (e.g., the symbolic transition system is finitely branching under mild assumptions), which result to be correct, but often not complete due to redundant information. Two kinds of redundancy, syntactic and semantic, are discussed and one class of symbolic equivalences is identifie...
AbstractThe semantics of process calculi has traditionally been specified by labelled transition sys...
The semantics of process calculi has traditionally been specified by labelled transition systems (LT...
Under several regards, various of the recently proposed computational paradigms are open-ended, i.e....
Behavioural equivalences on open systems are usually defined by comparing system behaviour in all en...
We propose a general methodology for analysing the behaviour of open systems modelled as "coordina...
The semantics of process calculi has traditionally been specified by labelled transition systems (LT...
The semantics of process calculi has traditionally been specified by labelled transition systems (LT...
We propose a general methodology for analysing the behaviour of open systems modelled as coordinator...
Introduction Process algebras, such as CCS [Mil89], CSP [Hoa85], and ACP [JJ85], were developed orig...
Abstract We propose a methodology for the analysis of open systems based on process calculi and bisi...
We propose a methodology for the analysis of open systems based on process calculi and bisimilarity....
AbstractWe propose a general methodology for analysing the behaviour of open systems modelled as coo...
We study the equivalence of models that capture the behaviour of systems, such as process-oriented i...
Beahvioral equivalences serve to establish in which cases two reactive (possible concurrent) systems...
We study the equivalence of models that capture the behaviour of systems, such as process-oriented i...
AbstractThe semantics of process calculi has traditionally been specified by labelled transition sys...
The semantics of process calculi has traditionally been specified by labelled transition systems (LT...
Under several regards, various of the recently proposed computational paradigms are open-ended, i.e....
Behavioural equivalences on open systems are usually defined by comparing system behaviour in all en...
We propose a general methodology for analysing the behaviour of open systems modelled as "coordina...
The semantics of process calculi has traditionally been specified by labelled transition systems (LT...
The semantics of process calculi has traditionally been specified by labelled transition systems (LT...
We propose a general methodology for analysing the behaviour of open systems modelled as coordinator...
Introduction Process algebras, such as CCS [Mil89], CSP [Hoa85], and ACP [JJ85], were developed orig...
Abstract We propose a methodology for the analysis of open systems based on process calculi and bisi...
We propose a methodology for the analysis of open systems based on process calculi and bisimilarity....
AbstractWe propose a general methodology for analysing the behaviour of open systems modelled as coo...
We study the equivalence of models that capture the behaviour of systems, such as process-oriented i...
Beahvioral equivalences serve to establish in which cases two reactive (possible concurrent) systems...
We study the equivalence of models that capture the behaviour of systems, such as process-oriented i...
AbstractThe semantics of process calculi has traditionally been specified by labelled transition sys...
The semantics of process calculi has traditionally been specified by labelled transition systems (LT...
Under several regards, various of the recently proposed computational paradigms are open-ended, i.e....