Deciding Bisimulation-Like Equivalences with Finite-State Processes

• Authors: JANČAR Petr; KUČERA Antonín; MAYR Richard
• Year of publication: 2001
• Type: Article in Periodical
• Magazine / Source: Theoretical Computer Science
• MU Faculty or unit: Faculty of Informatics
• Field: Computer hardware and software
• Keywords: concurrency; infinite-state systems; bisimilarity
• Description: We show that characteristic formulae for finite-state systems up to bisimulation-like equivalences (e.g., strong and weak bisimilarity) can be given in the simple branching-time temporal logic EF. Since EF is a very weak fragment of the modal mu-calculus, model checking with EF is decidable for many more classes of infinite-state systems. This yields a general method for proving decidability of bisimulation-like equivalences between infinite-state processes and finite-state ones. We apply this method to the class of PAD processes, which strictly subsumes PA and pushdown (PDA) processes, showing that a large class of bisimulation-like equivalences (including, e.g., strong and weak bisimilarity) is decidable between PAD and finite-state processes. On the other hand, we also demonstrate that no `reasonable' bisimulation-like equivalence is decidable between state-extended PA processes and finite-state ones. Furthermore, weak bisimilarity with finite-state processes is shown to be undecidable even for state-extended BPP (which are also known as `parallel pushdown processes').

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