Abstract: The design of business or production systems frequently necessitates to simultaneously fulfill several logical and numerical constraints as requirements in order to deliver a functionally correct and optimal system. Such a problem can be typically formulated as a combined optimization and reachability analysis. In the current paper, we show how this problem can be formalized when the evolution of the system is captured by graph transformation systems (GTS) with a cost parameter attached to each graph transformation rule denoting the cost of firing the rule. Fur-thermore, we discuss how to solve such problems by combining guided state space exploration with algebraic techniques of Petri nets
Abstract. The “classical ” approach to represent Petri nets by graph transformation systems is to tr...
Graph transformation systems (GTS) have been successfully proposed as a general, theoretically sound...
Integer timed Petri nets (ITPN) are applied in this work to model automated manufacturing systems, w...
The design of business or production systems frequently necessitates to simultaneously fulfill sever...
Abstract: Extra–functional properties of IT systems have to be analyzed and sub-sequently optimized ...
Abstract: Graph transformation systems (GTS) are often used for modeling the behavior of complex sys...
Graph transformation systems (GTS) are often used for modeling the behavior of complex systems. A co...
AbstractThe design of safety critical systems frequently necessitates to simultaneously fulfill seve...
AbstractThis article deals with the use of Petri nets for the analysis of production systems. The ai...
The design of safety critical systems frequently necessitates to simultaneously fulfill sev-eral log...
Discrete event systems in applications, such as industry and supply chain, may show a very complex b...
Recently, the increasing complexity of IT systems requires the early verification and validation of ...
This work was partly supported by the projects 'Computing by Graph Transformations (GraGra)' and 'Ka...
In the framework of adhesive transformation systems with Negative Application Conditions (NACs), we ...
The structure of the reachability graph of a marked graph Petri net is fully characterised. Exact st...
Abstract. The “classical ” approach to represent Petri nets by graph transformation systems is to tr...
Graph transformation systems (GTS) have been successfully proposed as a general, theoretically sound...
Integer timed Petri nets (ITPN) are applied in this work to model automated manufacturing systems, w...
The design of business or production systems frequently necessitates to simultaneously fulfill sever...
Abstract: Extra–functional properties of IT systems have to be analyzed and sub-sequently optimized ...
Abstract: Graph transformation systems (GTS) are often used for modeling the behavior of complex sys...
Graph transformation systems (GTS) are often used for modeling the behavior of complex systems. A co...
AbstractThe design of safety critical systems frequently necessitates to simultaneously fulfill seve...
AbstractThis article deals with the use of Petri nets for the analysis of production systems. The ai...
The design of safety critical systems frequently necessitates to simultaneously fulfill sev-eral log...
Discrete event systems in applications, such as industry and supply chain, may show a very complex b...
Recently, the increasing complexity of IT systems requires the early verification and validation of ...
This work was partly supported by the projects 'Computing by Graph Transformations (GraGra)' and 'Ka...
In the framework of adhesive transformation systems with Negative Application Conditions (NACs), we ...
The structure of the reachability graph of a marked graph Petri net is fully characterised. Exact st...
Abstract. The “classical ” approach to represent Petri nets by graph transformation systems is to tr...
Graph transformation systems (GTS) have been successfully proposed as a general, theoretically sound...
Integer timed Petri nets (ITPN) are applied in this work to model automated manufacturing systems, w...