Abstract We prove a general finite-time convergence theorem for fixpoint expressions over a well-quasi-ordered set. This has immediate applications for the verification of well-structured systems, where a main issue is the computability of fixpoint expressions, and in particular for game-theoretical properties and probabilistic systems where nesting and alternation of least and greatest fixpoints are common
AbstractMany different methods have been devised for automatically verifying finite state systems by...
Abstract. Higher Order Fixpoint Logic (HFL) is a hybrid of the simply typed λ-calculus and the modal...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
In today's computer engineering, requirements for generally high reliability have pushed the notion ...
Many automated finite-state verification procedures can be viewed as fixpoint computations over a fi...
AbstractWe describe finite-state programs over real-numbered time in a guarded-command language with...
We describe finite-state programs over real-numbered time in a guarded-command language with real-v...
In this paper, we introduce model-checking games that allow local second-order power on sets of inde...
AbstractIn this paper, we introduce model-checking games that allow local second-order power on sets...
In this paper we introduce model-checking games that allow local second-order power on sets of indep...
AbstractOver the past few years increasing research effort has been directed towards the automatic v...
Abstract. Well-structured transition systems (WSTS) are a broad and well-studied class of infinite-s...
We review the techniques for over- and underapproximation used in symbolic model checking and their ...
In recent years several extensions of first-order logic have been investigated in the context of fin...
We consider symbolic model checking as a general procedure to compute fixed points on general lattic...
AbstractMany different methods have been devised for automatically verifying finite state systems by...
Abstract. Higher Order Fixpoint Logic (HFL) is a hybrid of the simply typed λ-calculus and the modal...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
In today's computer engineering, requirements for generally high reliability have pushed the notion ...
Many automated finite-state verification procedures can be viewed as fixpoint computations over a fi...
AbstractWe describe finite-state programs over real-numbered time in a guarded-command language with...
We describe finite-state programs over real-numbered time in a guarded-command language with real-v...
In this paper, we introduce model-checking games that allow local second-order power on sets of inde...
AbstractIn this paper, we introduce model-checking games that allow local second-order power on sets...
In this paper we introduce model-checking games that allow local second-order power on sets of indep...
AbstractOver the past few years increasing research effort has been directed towards the automatic v...
Abstract. Well-structured transition systems (WSTS) are a broad and well-studied class of infinite-s...
We review the techniques for over- and underapproximation used in symbolic model checking and their ...
In recent years several extensions of first-order logic have been investigated in the context of fin...
We consider symbolic model checking as a general procedure to compute fixed points on general lattic...
AbstractMany different methods have been devised for automatically verifying finite state systems by...
Abstract. Higher Order Fixpoint Logic (HFL) is a hybrid of the simply typed λ-calculus and the modal...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...