Patrick Totzke

Branching-Time Model Checking Gap-Order Constraint Systems

We consider the model checking problem for Gap-order Constraint Systems (GCS) w.r.t. the branching-time temporal logic CTL, and in particular its fragments EG and EF.

GCS are nondeterministic infinitely branching processes described by evolutions of integer-valued variables, subject to Presburger constraints of the form \(x-y\ge k\), where \(x\) and \(y\) are variables or constants and \(k\in\mathbb{N}\) is a non-negative constant.

We show that EG model checking is undecidable for GCS, while EF is decidable. In particular, this implies the decidability of strong and weak bisimulation equivalence between GCS and finite-state systems.

This is a journal version of HM2013. It additionally contains a (non-primitive recursive) upper bound for the decidable case.