International audienceIn several application areas, Graph Transformation Systems (GTSs) are equipped with Negative Application Conditions (NACs) that specify “forbidden contexts”, in which the rules shall not be applied. The extension to NACs, however, introduces inhibiting effects among transformation steps that are not local in general, causing a severe problem for a concurrent semantics. In fact, the relation of sequential independence among derivation steps is not invariant under switching, as we illustrate with an example. We first show that this problem disappears if the NACs are restricted to be incremental. Next we present an algorithm that transforms a GTS with arbitrary NACs into one with incremental NACs only, able to simulate th...
The unfolding of a graph grammar provides a compact and comprehensive representation of its behaviou...
In the framework of graph transformation systems with Negative Application Conditions (NACs) the cla...
In the framework of adhesive transformation systems with Negative Application Conditions (NACs), we ...
International audienceIn several application areas, Graph Transformation Systems (GTSs) are equipped...
Using graph transformations to specify the dynamics of distributed systems and networks, we require ...
Abstract. The goal of this paper is the generalization of embedding and confluence results for graph...
Abstract: A rich concurrent semantics has been developed along the years for graph transformation sy...
Graph Transformation Systems (GTSs) are an integrated formal speci cation framework for modelling an...
In modelling complex systems with graph grammars (GGs), it is convenient to restrict the application...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
Abstract: This paper introduces negative application conditions for reconfigurable place/transition ...
This paper introduces negative application conditions for reconfigurable place/transition nets. The...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks ...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
The unfolding of a graph grammar provides a compact and comprehensive representation of its behaviou...
In the framework of graph transformation systems with Negative Application Conditions (NACs) the cla...
In the framework of adhesive transformation systems with Negative Application Conditions (NACs), we ...
International audienceIn several application areas, Graph Transformation Systems (GTSs) are equipped...
Using graph transformations to specify the dynamics of distributed systems and networks, we require ...
Abstract. The goal of this paper is the generalization of embedding and confluence results for graph...
Abstract: A rich concurrent semantics has been developed along the years for graph transformation sy...
Graph Transformation Systems (GTSs) are an integrated formal speci cation framework for modelling an...
In modelling complex systems with graph grammars (GGs), it is convenient to restrict the application...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
Abstract: This paper introduces negative application conditions for reconfigurable place/transition ...
This paper introduces negative application conditions for reconfigurable place/transition nets. The...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks ...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
The unfolding of a graph grammar provides a compact and comprehensive representation of its behaviou...
In the framework of graph transformation systems with Negative Application Conditions (NACs) the cla...
In the framework of adhesive transformation systems with Negative Application Conditions (NACs), we ...