Branching-Time Model Checking Gap-Order Constraint Systems
نویسندگان
چکیده
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 ≥ k, where x and y are variables or constants and k ∈ 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.
منابع مشابه
Explorer 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 ≥ k, where x and y are variables or constants and k ∈ N is a non-negat...
متن کاملBranching-Time Model Checking Gap-Order Constraint Systems (Extended Version)
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 ≥ k, where x and y are variables or constants and k ∈ N is a non-negati...
متن کاملVerification of Gap-Order Constraint Abstractions of Counter Systems
We investigate verification problems for gap-order constraint systems (GCS), an (infinitely-branching) abstract model of counter machines, in which constraints (over Z) between the variables of the source state and the target state of a transition are gap-order constraints (GC) [21]. GCS extend monotonicity constraint systems [3], integral relation automata [8], and constraint automata in [11]....
متن کاملTowards model checking OCL
This paper presents a logic, called BOTL (Object-Based Temporal Logic), that facilitates the specification of dynamic and static properties of object-based systems. The logic is based on the branching temporal logic CTL and the Object Constraint Language (OCL). Eventually, the aim is to do model checking. The formal semantics of BOTL is defined in terms of a general operational model that is ai...
متن کاملBranching Time and Partial Orderin Temporal
The aim of this paper is to present existing propositional temporal logics with branching and partially ordered time. These logics are used for specifying and proving properties of programs and systems. The branching time approach is useful e.g. for non-deterministic programs and can be applied also for concurrent programs. The partial order approach is especially useful for concurrent programs...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
دوره شماره
صفحات -
تاریخ انتشار 2013