Automated formal verification of visual modeling languages by model checking

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Authors

Tags: 2004, conceptual modeling, Dániel Varró

Graph transformation has recently become more and more popular as a general, rule-based visual specification paradigm to formally capture (a) requirements or behavior of user models (on the model-level), and (b) the operational semantics of modeling languages (on the meta-level) as demonstrated by benchmark applications around the Unified Modeling Language (UML). The current paper focuses on the model checking-based automated formal verification of graph transformation systems used either on the model-level or meta-level. We present a general translation that inputs (i) a metamodel of an arbitrary visual modeling language, (ii) a set of graph transformation rules that defines a formal operational semantics for the language, and (iii) an arbitrary well-formed model instance of the language and generates a transitions system (TS) that serve as the underlying mathematical specification formalism of various model checker tools. The main theoretical benefit of our approach is an optimization technique that projects only the dynamic parts of the graph transformation system into the target transition system, which results in a drastical reduction in the state space. The main practical benefit is the use of existing back-end model checker tools, which directly provides formal verification facilities (without additional efforts required to implement an analysis tool) for many practical applications captured in a very high-level visual notation. The practical feasibility of the approach is demonstrated by modeling and analyzing the well-known verification benchmark of dining philosophers both on the model and meta-level.

Read the full paper here: http://www.sosym.org/