Graph transformation works under a whole-world assumption. In modelling realistic systems, this typically makes for large graphs and sometimes also large, hard to understand rules. From process algebra, on the other hand, we know the principle of reactivity, meaning that the system being modelled is embedded in an environment with which it continually interacts. This has the advantage of allowing modular system specifications and correspondingly smaller descriptions of individual components. Reactivity can alternatively be understood as enabling compositionality: the specification of components and subsystems are composed to obtain the complete model. In this work we show a way to ingest graph transformation with compositionality, reaping t...
Background: Modeling molecules as undirected graphs and chemical reactions as graph rewriting operat...
<p>In A we see how the two substrates and one product (circles) of a reaction ...
AbstractModel transformations can be used not only for code or platform-specific model generation, b...
Graph transformation works under a whole-world assumption. In modelling realistic systems, this typi...
Abstract. Graph transformation works under a whole-world assumption. In modelling realistic systems,...
Graph transformation works under the whole world assumption. Therefore, in realistic systems, both t...
Graph transformation works under the whole world assumption. Therefore, in realistic systems, both t...
Abstract: Graph transformation works under the whole world assumption. There-fore, in realistic syst...
We present a notion of composition applying both to graphs and to rules, based on graph and rule int...
Process calculi and graph transformation systems provide models of reactive systems with labelled tr...
A loose semantics for graph transformation rules which has been developed recently is used in this p...
Inspired by decomposition problems in rule-based formalisms in Computational Systems Biology and rec...
Graph transformation form a natural model for chemical reaction systems and provide a su cient level...
Graph transformation systems are formal models of computational systems, specified by rules that des...
AbstractDistributed graph transformation is introduced as a formal specification technique for the c...
Background: Modeling molecules as undirected graphs and chemical reactions as graph rewriting operat...
<p>In A we see how the two substrates and one product (circles) of a reaction ...
AbstractModel transformations can be used not only for code or platform-specific model generation, b...
Graph transformation works under a whole-world assumption. In modelling realistic systems, this typi...
Abstract. Graph transformation works under a whole-world assumption. In modelling realistic systems,...
Graph transformation works under the whole world assumption. Therefore, in realistic systems, both t...
Graph transformation works under the whole world assumption. Therefore, in realistic systems, both t...
Abstract: Graph transformation works under the whole world assumption. There-fore, in realistic syst...
We present a notion of composition applying both to graphs and to rules, based on graph and rule int...
Process calculi and graph transformation systems provide models of reactive systems with labelled tr...
A loose semantics for graph transformation rules which has been developed recently is used in this p...
Inspired by decomposition problems in rule-based formalisms in Computational Systems Biology and rec...
Graph transformation form a natural model for chemical reaction systems and provide a su cient level...
Graph transformation systems are formal models of computational systems, specified by rules that des...
AbstractDistributed graph transformation is introduced as a formal specification technique for the c...
Background: Modeling molecules as undirected graphs and chemical reactions as graph rewriting operat...
<p>In A we see how the two substrates and one product (circles) of a reaction ...
AbstractModel transformations can be used not only for code or platform-specific model generation, b...