M-adhesive categories provide an abstract framework for a large variety of specification frameworks for modelling distributed and concurrent systems. They extend the well-known frameworks of adhesive and weak adhesive HLR categories and integrate high-level constructs such as attribution as in the case of typed attributed graphs. In the current paper, we investigate -adhesive transformation systems including negative application conditions (NACs) for transformation rules, which are often used in applications. For such systems, we propose an original equivalence on transformation sequences, called permutation equivalence, that is coarser than the classical switch equivalence. We also present a general construction of deterministic processes...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
Abstract: Various kinds of graph transformations and Petri net transformation sys-tems are examples ...
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...
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...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
In the framework of adhesive transformation systems with Negative Application Conditions (NACs), we...
Nested application conditions generalise the well-known negative application conditions and are impo...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
In the framework of graph transformation systems with Negative Application Conditions (NACs) the cla...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fra...
Process models of graph transformation systems are based on the concept of occurrence grammars, whi...
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
Abstract: Various kinds of graph transformations and Petri net transformation sys-tems are examples ...
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...
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...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
In the framework of adhesive transformation systems with Negative Application Conditions (NACs), we...
Nested application conditions generalise the well-known negative application conditions and are impo...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
In the framework of graph transformation systems with Negative Application Conditions (NACs) the cla...
Switch equivalence for transformation systems has been successfully used in many domains for the ana...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Adhesive high-level replacement (HLR) systems have been recently introduced as a new categorical fra...
Process models of graph transformation systems are based on the concept of occurrence grammars, whi...
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
Abstract: Various kinds of graph transformations and Petri net transformation sys-tems are examples ...
Various kinds of graph transformations and Petri net transformation systems are examples of M-adhesi...