Handbook of graph grammars and computing by graph transformation: volume I. foundations
Handbook of graph grammars and computing by graph transformation: volume I. foundations
2-structures—a framework for decomposition and transformation of graphs
Handbook of graph grammars and computing by graph transformation
Handbook of graph grammars and computing by graph transformation: vol. 3: concurrency, parallelism, and distribution
Handbook of graph grammars and computing by graph transformation: vol. 2: applications, languages, and tools
AToM3: A Tool for Multi-formalism and Meta-modelling
FASE '02 Proceedings of the 5th International Conference on Fundamental Approaches to Software Engineering
Modelling and Analysis of Distributed Simulation Protocols with Distributed Graph Transformation
ACSD '05 Proceedings of the Fifth International Conference on Application of Concurrency to System Design
Supporting software agents by the graph transformation systems
ICCS'06 Proceedings of the 6th international conference on Computational Science - Volume Part III
GRADIS --- Multiagent Environment Supporting Distributed Graph Transformations
ICCS '08 Proceedings of the 8th international conference on Computational Science, Part III
Using Graph Transformations in Distributed Adaptive Design System
ICCVG 2008 Proceedings of the International Conference on Computer Vision and Graphics: Revised Papers
On the effective distribution of knowledge represented by complementary graphs
KES-AMSTA'10 Proceedings of the 4th KES international conference on Agent and multi-agent systems: technologies and applications, Part I
Hypergraph distributed adaptive design supported by hypergraph replication
ICAISC'12 Proceedings of the 11th international conference on Artificial Intelligence and Soft Computing - Volume Part II
On the effective distribution and maintenance of knowledge represented by complementary graphs
Transactions on Compuational Collective Intelligence VI
Supporting communication and cooperation in distributed representation for adaptive design
Advanced Engineering Informatics
Expert Systems with Applications: An International Journal
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Graph transformations are a powerful notation formally describing different aspects of the software systems. Multiagent systems are one of the most promising ways to introduction of the parallel computation. The reason of difficulties in joining these approaches was centralized way of the graph representation. The GRADIS framework offers the possibility of splitting the graph describing the problem onto a few partial graphs, that can be maintained in different places. Moreover, the GRADIS distributed environment makes the application of old rules possible, in order to modify these set of partial graphs. Basing on this framework, we show how to introduce the multiagent system and we show an example estimation of improvement time complexity of the multiagent system in comparison to the centralized one.