Switch equivalence for transformation systems has been successfully used in many domains for the analysis of concurrent behaviour. When using graph transformation as modelling framework for these systems the concept of negative application conditions (NACs) is widely used -- in particular for the specification of operational semantics. In this paper we show that switch equivalence can be improved essentially for the analysis of systems with NACs by our new concept of permutation equivalence. Two derivations respecting all NACs are called permutation-equivalent if they are switch-equivalent disregarding the NACs. In fact, there are permutation-equivalent derivations which are not switch-equivalent with NACs. As main result of the paper, we s...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
The goal of this paper is the generalization of basic results for adhesive High-Level Replacement (H...
Model transformations are a key concept for modular and distributed model driven development. In thi...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
peer reviewedSwitch equivalence for transformation systems has been successfully used in many domain...
In the framework of graph transformation systems with Negative Application Conditions (NACs) the cla...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks ...
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 ...
A rich concurrent semantics has been developed along the years for graphtransformation systems, ofte...
This paper introduces negative application conditions for reconfigurable place/transition nets. The...
Abstract. The goal of this paper is the generalization of embedding and confluence results for graph...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
The goal of this paper is the generalization of basic results for adhesive High-Level Replacement (H...
Model transformations are a key concept for modular and distributed model driven development. In thi...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
peer reviewedSwitch equivalence for transformation systems has been successfully used in many domain...
In the framework of graph transformation systems with Negative Application Conditions (NACs) the cla...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks ...
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 ...
A rich concurrent semantics has been developed along the years for graphtransformation systems, ofte...
This paper introduces negative application conditions for reconfigurable place/transition nets. The...
Abstract. The goal of this paper is the generalization of embedding and confluence results for graph...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
The goal of this paper is the generalization of basic results for adhesive High-Level Replacement (H...
Model transformations are a key concept for modular and distributed model driven development. In thi...