We initiate a study of automata-based model checking for previously proposed quantitative linear time logics interpreted over coalgebras. Our results include: (i) an automata-theoretic characterisation of the semantics of these logics, based on a notion of extent of a quantitative parity automaton, (ii) a study of the expressive power of Buchi variants of such automata, with implications on the expressiveness of fragments of the logics considered, and (iii) a naive algorithm for computing extents, under additional assumptions on the domain of truth values
The realizability problem is to decide whether there exists a pro-gram that implements a given speci...
Abstract—A model has variability bounded by v/k when the state changes at most v times over any line...
We present a systematic way to generate (1) languages of (generalised) regular expressions, and (2) ...
We initiate a study of automata-based model checking for previously proposed quantitative linear tim...
AbstractThis paper considers QLtl, a quantitative analagon of Ltl and presents algorithms for model ...
We extend recent work on defining linear-time behaviour for state-based systems with branching, and ...
Despite its success in producing numerous general results on state-based dynamics, the theory of coa...
We consider state-based systems modelled as coalgebras whose type incorporates branching, and show t...
Quantitative generalizations of classical languages, which assign to each word a real number instead...
International audienceThis chapter illustrates two aspects of automata theory related to linear-time...
Quantitative generalizations of classical languages, which assign to each word a real number instead...
This paper presents an overview of algorithms for constructing automata from linear arithmetic const...
In this paper, we address the problem of model checking temporal properties of finite-state programs...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...
The automata-theoretic approach to linear time model-checking is a standard technique for formal ver...
The realizability problem is to decide whether there exists a pro-gram that implements a given speci...
Abstract—A model has variability bounded by v/k when the state changes at most v times over any line...
We present a systematic way to generate (1) languages of (generalised) regular expressions, and (2) ...
We initiate a study of automata-based model checking for previously proposed quantitative linear tim...
AbstractThis paper considers QLtl, a quantitative analagon of Ltl and presents algorithms for model ...
We extend recent work on defining linear-time behaviour for state-based systems with branching, and ...
Despite its success in producing numerous general results on state-based dynamics, the theory of coa...
We consider state-based systems modelled as coalgebras whose type incorporates branching, and show t...
Quantitative generalizations of classical languages, which assign to each word a real number instead...
International audienceThis chapter illustrates two aspects of automata theory related to linear-time...
Quantitative generalizations of classical languages, which assign to each word a real number instead...
This paper presents an overview of algorithms for constructing automata from linear arithmetic const...
In this paper, we address the problem of model checking temporal properties of finite-state programs...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...
The automata-theoretic approach to linear time model-checking is a standard technique for formal ver...
The realizability problem is to decide whether there exists a pro-gram that implements a given speci...
Abstract—A model has variability bounded by v/k when the state changes at most v times over any line...
We present a systematic way to generate (1) languages of (generalised) regular expressions, and (2) ...