Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. Our research is mainly focused on the use of graphs for system verification. Up to now, there are two main different approaches of modeling (typed) attributed graphs and specifying their transformation. Here we report preliminary results of our investigation on a third approach. In our approach we couple a graph to a data signature that consists of unary operations only. Therefore, we transform arbitrary signatures into a structure comparable to what is called a graph structure signature in the literature, and arbitrary algebras into the corresponding algebra graph
This paper deals with model transformations based on attributed graphs transformation. Our approach ...
Graph transformation with its formal foundations and its broad range of theoretical results, on the ...
Borrowed context graph transformation is a simple and powerful technique developed by Ehrig and Köni...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
AbstractGraphs are a very expressive formalism for system modeling, especially when attributes are a...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
Graphs are ubiquitous in computer science. Moreover, in various application fields, graphs are equip...
AbstractGraph grammars may be used as specification technique for different kinds of systems, specia...
We offer an alternative to the standard formalisation of attributed graphs. We propose to represent ...
In this paper we present a new approach to deal with attributed graphs and attributed graph transfor...
In this paper we present the philosophy behind the GROOVE project, in which graph transformation is ...
We offer an alternative to the standard formalisation of attributed graphs. We propose to represent ...
In this work we consider the question how attributed graph transformation can be distributed over a ...
This paper deals with model transformations based on attributed graphs transformation. Our approach ...
Graph transformation with its formal foundations and its broad range of theoretical results, on the ...
Borrowed context graph transformation is a simple and powerful technique developed by Ehrig and Köni...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
AbstractGraphs are a very expressive formalism for system modeling, especially when attributes are a...
Graphs are a very expressive formalism for system modeling, especially when attributes are allowed. ...
Graphs are ubiquitous in computer science. Moreover, in various application fields, graphs are equip...
AbstractGraph grammars may be used as specification technique for different kinds of systems, specia...
We offer an alternative to the standard formalisation of attributed graphs. We propose to represent ...
In this paper we present a new approach to deal with attributed graphs and attributed graph transfor...
In this paper we present the philosophy behind the GROOVE project, in which graph transformation is ...
We offer an alternative to the standard formalisation of attributed graphs. We propose to represent ...
In this work we consider the question how attributed graph transformation can be distributed over a ...
This paper deals with model transformations based on attributed graphs transformation. Our approach ...
Graph transformation with its formal foundations and its broad range of theoretical results, on the ...
Borrowed context graph transformation is a simple and powerful technique developed by Ehrig and Köni...