AbstractThe goal of this paper is the generalization of parallelism and concurrency results for adhesive High-Level Replacement (HLR) systems to adhesive HLR systems with negative application conditions. These conditions restrict the application of a rule by expressing that a specific structure should not be present before or after applying the rule to a certain context. Such a condition influences thus each rule application or transformation and therefore changes significantly the properties of the replacement system. The effect of negative application conditions on parallelism and concurrency in the replacement system is described in the generalization of the following results, formulated already for adhesive HLR systems without negative ...
Adhesive categories provide an abstract setting for the double-pushout approach to rewriting, genera...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Adhesive high-level replacement (HLR) categories and systems are introduced as a new categorical fra...
AbstractThe goal of this paper is the generalization of parallelism and concurrency results for adhe...
Nested application conditions generalise the well-known negative application conditions and are impo...
The goal of this paper is the generalization of basic results for adhesive High-Level Replacement (H...
We present Local Church-Rosser, Parallelism, and Concurrency Theorems for rules with nested applicat...
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 ...
16 pagesAn Independent Parallelism Theorem is proven in the theory of adhesive HLR categories. It sh...
Amalgamation is a well-known concept for graph transformations in order to model synchronized parall...
AbstractThis paper presents indispensable technical results of a general theory that will allow to s...
This paper introduces negative application conditions for reconfigurable place/transition nets. The...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Adhesive categories provide an abstract setting for the double-pushout approach to rewriting, genera...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Adhesive high-level replacement (HLR) categories and systems are introduced as a new categorical fra...
AbstractThe goal of this paper is the generalization of parallelism and concurrency results for adhe...
Nested application conditions generalise the well-known negative application conditions and are impo...
The goal of this paper is the generalization of basic results for adhesive High-Level Replacement (H...
We present Local Church-Rosser, Parallelism, and Concurrency Theorems for rules with nested applicat...
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 ...
16 pagesAn Independent Parallelism Theorem is proven in the theory of adhesive HLR categories. It sh...
Amalgamation is a well-known concept for graph transformations in order to model synchronized parall...
AbstractThis paper presents indispensable technical results of a general theory that will allow to s...
This paper introduces negative application conditions for reconfigurable place/transition nets. The...
Adhesive high-level replacement (HLR) systems are introduced as a new categorical framework for grap...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Adhesive categories provide an abstract setting for the double-pushout approach to rewriting, genera...
Process models of graph transformation systems are based on the concept of occurrence grammars, whic...
Adhesive high-level replacement (HLR) categories and systems are introduced as a new categorical fra...