AbstractAn extension of Hennessy-Milner Logic with recursion is presented. A recursively specified formula will have two standard interpretations: a minimal one and a maximal one. Minimal interpretations of formulas are useful for expressing liveness properties of processes, whereas maximal interpretations are useful for expressing safety properties. We present sound and complete proof systems for both interpretations for when a process satisfies a (possibly recursive) formula. The rules of the proof systems consist of an introduction rule for each possible structure of a formula and are intended to extend the work of Stirling and Winskel. Moreover the proof systems may be presented directly in PROLOG to yield a decision procedure for verif...
AbstractWe introduce several generalizations of testing to ω-behaviours of communicating processes, ...
AbstractThis paper proposes an inductive synthesis algorithm for a recursive process. To synthesize ...
AbstractWe examine the computational complexity of testing finite state processes for equivalence in...
AbstractAn extension of Hennessy-Milner Logic with recursion is presented. A recursively specified f...
AbstractCharacteristic formulae have been introduced by Graf and Sifakis to relate equational reason...
This study offers a characterization of the collection of propertiesexpressible in Hennessy-Milner L...
AbstractIn this paper processes specifiable over a non-uniform language are considered. The language...
AbstractWe show that some well-known rules in a Hoare-style proof system for total correctness of re...
In this paper we prove completeness of four axiomatisations for finite-state behaviours with respect...
Abstract. We study µHML (a branching-time logic with least and greatest fixpoints) from a runtime ve...
This paper establishes a comprehensive theory of runtime monitorability for Hennessy-Milner logic wi...
This paper discusses the classic notion of characteristic formulae for processes using variations on...
International audienceThere are two fundamentally different approaches to specifying and verifying p...
We show that some well-known rules in a Hoare-style proof system for total correctness of recursive ...
Abstract. Hennessy-Milner logic is a logic for labeled transition systems, which specifies behaviors...
AbstractWe introduce several generalizations of testing to ω-behaviours of communicating processes, ...
AbstractThis paper proposes an inductive synthesis algorithm for a recursive process. To synthesize ...
AbstractWe examine the computational complexity of testing finite state processes for equivalence in...
AbstractAn extension of Hennessy-Milner Logic with recursion is presented. A recursively specified f...
AbstractCharacteristic formulae have been introduced by Graf and Sifakis to relate equational reason...
This study offers a characterization of the collection of propertiesexpressible in Hennessy-Milner L...
AbstractIn this paper processes specifiable over a non-uniform language are considered. The language...
AbstractWe show that some well-known rules in a Hoare-style proof system for total correctness of re...
In this paper we prove completeness of four axiomatisations for finite-state behaviours with respect...
Abstract. We study µHML (a branching-time logic with least and greatest fixpoints) from a runtime ve...
This paper establishes a comprehensive theory of runtime monitorability for Hennessy-Milner logic wi...
This paper discusses the classic notion of characteristic formulae for processes using variations on...
International audienceThere are two fundamentally different approaches to specifying and verifying p...
We show that some well-known rules in a Hoare-style proof system for total correctness of recursive ...
Abstract. Hennessy-Milner logic is a logic for labeled transition systems, which specifies behaviors...
AbstractWe introduce several generalizations of testing to ω-behaviours of communicating processes, ...
AbstractThis paper proposes an inductive synthesis algorithm for a recursive process. To synthesize ...
AbstractWe examine the computational complexity of testing finite state processes for equivalence in...