A new object-oriented Petri net simulation environment based on Modelica

We present a new Petri net simulation environment to enable graphical hierarchical modeling, hybrid simulation, and animation of processes in life sciences, and technical applications, among others. In order to model these most different processes, a new powerful and universally usable mathematical...

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Hauptverfasser:	Pros, S., Bachmann, B., Janowski, S. J., Hofestadt, R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Adaptation models Biological system modeling Fires Firing Mathematical model Object oriented modeling Petri nets
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creator	Pros, S. Bachmann, B. Janowski, S. J. Hofestadt, R.
description	We present a new Petri net simulation environment to enable graphical hierarchical modeling, hybrid simulation, and animation of processes in life sciences, and technical applications, among others. In order to model these most different processes, a new powerful and universally usable mathematical modeling concept - extended Hybrid Petri (xHPN) - has been established. This specification is used for the Petri Net library (PNlib) realized by the object-oriented modeling language Modelica. In contrast to other approaches, we enable users to simultaneously reconstruct, analyze, and simulate complex dynamic models in one view. Therefore, we have connected the PNlib to VANESA, an open source tool for visualization and analysis of networks. Additionally, the PNlib is connected to Matlab/Simulink to use all the Matlab power for post-processing simulation results. To demonstrate this powerful environment, we are reporting our experience by modeling a technical and a general biological application case.
doi_str_mv	10.1109/WSC.2012.6465287
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subjects	Adaptation models Biological system modeling Fires Firing Mathematical model Object oriented modeling Petri nets
title	A new object-oriented Petri net simulation environment based on Modelica
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