Simulation and visualization support for user-defined formalisms using meta-modeling and hierarchical formalism transformation

A software environment which is dedicated to modeling and simulation of complex technological systems incorporating various domains has to cover a wide range of schematics and graphical formalisms. Usually, these formalisms are based on different computational models and include continuous as well a...

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1. Verfasser:	Remelhe, M.A.P.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Analytical models Chemicals Computational modeling Differential equations Metamodeling Power system modeling Process control Process design System testing Visualization
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description	A software environment which is dedicated to modeling and simulation of complex technological systems incorporating various domains has to cover a wide range of schematics and graphical formalisms. Usually, these formalisms are based on different computational models and include continuous as well as discrete-event dynamics. Furthermore, in order to improve the design process, an environment of that kind should provide means for adopting additional formalisms tailored to the needs of a specific domain. In the paper a hierarchical formalism refinement concept is presented. It allows us to introduce efficiently user-defined formalisms along with simulation and analysis facilities into a modeling environment by deriving them from already defined formalisms. This concept has been realized using the modeling language Modelica as the basic model representation and the meta-modeling tool DOME for specifying the graphical editors and the formalism transformations. For the purpose of illustration a basic statechart tool is refined twice. First, a new tool is created which support compound transitions. Then, this new formalism is extended again by introducing differential equations.
doi_str_mv	10.1109/CCA.2001.973958
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Analytical models Chemicals Computational modeling Differential equations Metamodeling Power system modeling Process control Process design System testing Visualization
title	Simulation and visualization support for user-defined formalisms using meta-modeling and hierarchical formalism transformation
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