VPM: A visual, precise and multilevel metamodeling framework for describing mathematical domains and UML

Title{VPM}: A visual, precise and multilevel metamodeling framework for describing mathematical domains and {UML}
Publication TypeJournal Article
Year of Publication2003
AuthorsVarró, D., and Pataricza, A.
JournalJournal of Software and Systems Modeling
Volume2
Pagination187–210
Date PublishedOctober
Keywordsformal semantics, graph transformation, metamodeling, model transformation, refinement
AbstractAs UML 2.0 is evolving into a family of languages with individually specified semantics, there is an increasing need for automated and provenly correct model transformations that (i) assure the integration of local views (different diagrams) of the system into a consistent global view, and, (ii) provide a well–founded mapping from UML models to different semantic domains (Petri nets, Kripke automaton, process algebras, etc.) for formal analysis purposes as foreseen, for instance, in submissions for the OMG RFP for Schedulability, Performance and Time. However, such transformations into different semantic domains typically require the deep understanding of the underlying mathematics, which hinders the use of formal specification techniques in industrial applications. In the paper, we propose a multilevel metamodeling technique with precise static and dynamic semantics (based on a refinement calculus and graph transformation) where the structure and operational semantics of mathematical models can be defined in a UML notation without cumbersome mathematical formulae.
URLhttp://www.inf.mit.bme.hu/FTSRG/Publications/varro/2003/sosym2003_vp.pdf