The problem of extending to graph grammars the unfolding semantics originally developed by Winskel for (safe) Petri nets has been faced several times along the years, both for the single-pushout and double-pushout approaches, but only partial results were obtained. In this paper we fully extend Winskel’s approach to single-pushout grammars providing them with a categorical concurrent semantics expressed as a coreflection between the category of graph grammars and the category of prime algebraic domains
Graph transformation systems are widely recognized as a powerful formalism for the specification of ...
AbstractAlgebraic graph transformations visually support intuition, have a strong theoretical basis,...
We generalize the unfolding semantics, previously developed for concrete formalisms such as Petri ne...
The problem of extending to graph grammars the unfolding semantics originally developed by Winskel f...
Several attempts have been made of extending to graph grammars the unfolding semantics originally de...
AbstractSeveral attempts have been made of extending to graph grammars the unfolding semantics origi...
Several attempts have been made of extending to graph grammars the unfolding semantics originally de...
In a recent paper, mimicking Winskel’s construction for Petri nets, a concurrent semantics for (doub...
We propose an unfolding semantics for graph transformation systems in the double-pushout (DPO) appro...
Graph grammars (or graph transformation systems), originally introduced as a generalization of strin...
Graph grammars are a powerful model of concurrent and distributed systems which can be seen as a pro...
AbstractGraph grammars are a powerful model of concurrent and distributed systems which can be seen ...
Graph grammars are a powerful model of concurrent and distributed systems which can be seen as a pro...
Petri nets are widely accepted as a specification formalism for concurrent and distributed systems. ...
AbstractPetri nets are widely accepted as a specification formalism for concurrent and distributed s...
Graph transformation systems are widely recognized as a powerful formalism for the specification of ...
AbstractAlgebraic graph transformations visually support intuition, have a strong theoretical basis,...
We generalize the unfolding semantics, previously developed for concrete formalisms such as Petri ne...
The problem of extending to graph grammars the unfolding semantics originally developed by Winskel f...
Several attempts have been made of extending to graph grammars the unfolding semantics originally de...
AbstractSeveral attempts have been made of extending to graph grammars the unfolding semantics origi...
Several attempts have been made of extending to graph grammars the unfolding semantics originally de...
In a recent paper, mimicking Winskel’s construction for Petri nets, a concurrent semantics for (doub...
We propose an unfolding semantics for graph transformation systems in the double-pushout (DPO) appro...
Graph grammars (or graph transformation systems), originally introduced as a generalization of strin...
Graph grammars are a powerful model of concurrent and distributed systems which can be seen as a pro...
AbstractGraph grammars are a powerful model of concurrent and distributed systems which can be seen ...
Graph grammars are a powerful model of concurrent and distributed systems which can be seen as a pro...
Petri nets are widely accepted as a specification formalism for concurrent and distributed systems. ...
AbstractPetri nets are widely accepted as a specification formalism for concurrent and distributed s...
Graph transformation systems are widely recognized as a powerful formalism for the specification of ...
AbstractAlgebraic graph transformations visually support intuition, have a strong theoretical basis,...
We generalize the unfolding semantics, previously developed for concrete formalisms such as Petri ne...