Graph transformation has been used to model concurrent systems in software engineering, as well as in biochemistry and life sciences. The application of a transformation rule can be characterised algebraically as construction of a double-pushout (DPO) diagram in the category of graphs. We show how intuitionistic linear logic can be extended with resource-bound quantification, allowing for an implicit handling of the DPO conditions, and how resource logic can be used to reason about graph transformation systems.
AbstractIn this abstract we emphasize the role of a semantic structure called resource graph in orde...
The dynamic behavior of rule-based systems (like term rewriting systems, process algebras, and so on...
International audienceWe propose a new algebraic approach to graph transformation, called the Pullba...
The classical algebraic approach to graph transformation is a mathematical theory based on categoric...
Linear logics have been shown to be able to embed both rewriting-based approaches and process calcul...
Linear logics have been shown to be able to embed both rewriting-based approaches and process calcul...
Graph transformation systems are widely recognized as a powerful formalism for the specification of ...
Abstract: In this paper we define recursive rules in the double pushout approach (DPO) to graph tran...
In this paper we investigate and compare four variants of the double-pushout approach to graph trans...
Inspired by the pioneering work of Petri and the rise of diagrammatic formalisms to reason about net...
: The "in the large" properties of typed graph transformation systems in the double pushou...
State-of-the-art approaches to controlled graph rewriting focus on the specification of an external ...
Constraint Handling Rules (CHR) is a rule- and logic-based formalism and has established itself as a...
Graph transformation systems (GTS) and constraint handling rules (CHR) are non-deterministic rule-ba...
We introduce the resource calculus, a string diagrammatic language for concurrent systems. Significa...
AbstractIn this abstract we emphasize the role of a semantic structure called resource graph in orde...
The dynamic behavior of rule-based systems (like term rewriting systems, process algebras, and so on...
International audienceWe propose a new algebraic approach to graph transformation, called the Pullba...
The classical algebraic approach to graph transformation is a mathematical theory based on categoric...
Linear logics have been shown to be able to embed both rewriting-based approaches and process calcul...
Linear logics have been shown to be able to embed both rewriting-based approaches and process calcul...
Graph transformation systems are widely recognized as a powerful formalism for the specification of ...
Abstract: In this paper we define recursive rules in the double pushout approach (DPO) to graph tran...
In this paper we investigate and compare four variants of the double-pushout approach to graph trans...
Inspired by the pioneering work of Petri and the rise of diagrammatic formalisms to reason about net...
: The "in the large" properties of typed graph transformation systems in the double pushou...
State-of-the-art approaches to controlled graph rewriting focus on the specification of an external ...
Constraint Handling Rules (CHR) is a rule- and logic-based formalism and has established itself as a...
Graph transformation systems (GTS) and constraint handling rules (CHR) are non-deterministic rule-ba...
We introduce the resource calculus, a string diagrammatic language for concurrent systems. Significa...
AbstractIn this abstract we emphasize the role of a semantic structure called resource graph in orde...
The dynamic behavior of rule-based systems (like term rewriting systems, process algebras, and so on...
International audienceWe propose a new algebraic approach to graph transformation, called the Pullba...