Process models of graph transformation systems are based on the concept of occurrence grammars, which are a generalization of Petri net processes given by occurrence nets. Recently, subobject transformation systems were proposed as an abstract framework for occurrence grammars in adhesive categories, but they are restricted to monomorphic matches for transformation steps. In this paper we review the construction of STSs as processes for plain graph grammars and present an extension to weak adhesive HLR categories with non-monomorphic matching, such that e.g. attributed graph grammars are included
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fr...
Several variants of high-level replacement (HLR) and adhesive cate-gories have been introduced in th...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Process definition on the basis of graph transformation systems was introduced by the concept of occ...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks...
Adhesive high-level replacement (HLR) categories and systems are introduced as a new categorical fra...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks ...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fra...
Graph transformation systems (gts) are suitable for modelling concurrent and distributed behaviour o...
Abstract. In this paper we introduce the categorical framework for rule-based transformations of hig...
We generalise both the notion of a non-sequential process and the unfolding construction (which was...
Several variants of high-level replacement (HLR) and adhesive cate-gories have been introduced in th...
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fr...
Several variants of high-level replacement (HLR) and adhesive cate-gories have been introduced in th...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Process definition on the basis of graph transformation systems was introduced by the concept of occ...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks...
Adhesive high-level replacement (HLR) categories and systems are introduced as a new categorical fra...
M-adhesive categories provide an abstract framework for a large variety of specification frameworks ...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fra...
Graph transformation systems (gts) are suitable for modelling concurrent and distributed behaviour o...
Abstract. In this paper we introduce the categorical framework for rule-based transformations of hig...
We generalise both the notion of a non-sequential process and the unfolding construction (which was...
Several variants of high-level replacement (HLR) and adhesive cate-gories have been introduced in th...
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fr...
Several variants of high-level replacement (HLR) and adhesive cate-gories have been introduced in th...