Behavior-Preserving Simulation-to-Animation Model and Rule Transformations
Electronic Notes in Theoretical Computer Science (ENTCS)
Analysing Graph Transformation Rules through OCL
ICMT '08 Proceedings of the 1st international conference on Theory and Practice of Model Transformations
Prototyping Visual Interpreters and Debuggers for Domain-Specific Modelling Languages
ECMDA-FA '08 Proceedings of the 4th European conference on Model Driven Architecture: Foundations and Applications
Specifying behavioral semantics of UML diagrams through graph transformations
Journal of Systems and Software
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Information and Software Technology
Simulating domain specific visual models by observation
SpringSim '10 Proceedings of the 2010 Spring Simulation Multiconference
A simulation-based software design framework for network-centric and parallel systems
Programming Support Innovations for Emerging Distributed Applications
Non-materialized model view specification with triple graph grammars
ICGT'06 Proceedings of the Third international conference on Graph Transformations
Model-driven performance analysis of rule-based domain specific visual models
Information and Software Technology
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This paper shows how integrated UML models combining class, object, use-case, collaboration and state diagrams can be animated in a domain-specific layout. The presented approach is based on graph transformation, i.e. UML model diagrams are translated to a graph transformation system and the behavior of the integrated model is simulated by applications of graph transformation rules. For model validation, users may prefer to see the behavior of selected model aspects as scenarios presented in the layout of the application domain. We propose to integrate animation views with the modelýs graph transformation system. A prototypical validation system has been implemented recently supporting the automatic translation of a UML model into a graph transformation system, and the interactive execution and simulation of the model behavior. We sketch the tool interconnection to GenGED, a visual language environment which allows to enrich graph transformation systems for model simulation by features for animation.