Abstract The general idea of high-level replacement systems is to generalize the concept of graph transformation systems and graph grammars from graphs to all kinds of structures which are of interest in Computer Science and Mathematics. Within the algebraic approach of graph transformation this is possible by replacing graphs, graph morphisms, and pushouts (gluing) of graphs by objects, morphisms, and pushouts in a suitable category. Of special interest are categories for all kinds of labelled and typed graphs, hypergraphs, algebraic specifications and Petri nets. In this paper, we review the basic results for high-level replacement systems in the algebraic double-pushout approach in the symmetric case, where both rule morphisms belong to ...
AbstractThe single-pushout approach to graph transformation interprets a double-pushout transformati...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fr...
AbstractThe single-pushout approach to graph transformation is extended to the algebraic transformat...
AbstractThe general idea of high-level replacement systems is to generalize the concept of graph tra...
High-level replacement systems are an axiomatic categorical framework based on double-pushouts in or...
High-Level Replacement Systems presented in [EHKP92] are an axiomatic categorical framework based on...
AbstractHigh Level Replacement Systems generalize the concept of graph transformation systems from g...
The concept of algebraic high-level net transformation systems combines two important lines of resea...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fra...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
AbstractAdhesive high-level replacement (HLR) systems have been recently established as a suitable c...
Abstract. In this paper we introduce the categorical framework for rule-based transformations of hig...
The algebraic approaches to graph transformation are based on the concept of gluing of graphs, mode...
In this paper we investigate and compare four variants of the double-pushout approach to graph trans...
Adhesive high-level replacement (HLR) systems have been recently established as a suitable categoric...
AbstractThe single-pushout approach to graph transformation interprets a double-pushout transformati...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fr...
AbstractThe single-pushout approach to graph transformation is extended to the algebraic transformat...
AbstractThe general idea of high-level replacement systems is to generalize the concept of graph tra...
High-level replacement systems are an axiomatic categorical framework based on double-pushouts in or...
High-Level Replacement Systems presented in [EHKP92] are an axiomatic categorical framework based on...
AbstractHigh Level Replacement Systems generalize the concept of graph transformation systems from g...
The concept of algebraic high-level net transformation systems combines two important lines of resea...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fra...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
AbstractAdhesive high-level replacement (HLR) systems have been recently established as a suitable c...
Abstract. In this paper we introduce the categorical framework for rule-based transformations of hig...
The algebraic approaches to graph transformation are based on the concept of gluing of graphs, mode...
In this paper we investigate and compare four variants of the double-pushout approach to graph trans...
Adhesive high-level replacement (HLR) systems have been recently established as a suitable categoric...
AbstractThe single-pushout approach to graph transformation interprets a double-pushout transformati...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fr...
AbstractThe single-pushout approach to graph transformation is extended to the algebraic transformat...