Modeling and Simulation Group

Modeling and simulation are essential methods that are applied in versatile areas, such as computer science, engineering, natural science, medicine, and social science. Depending on the system to be studied and the objective of the simulation study different methods are used for modeling, executing the model, and for analyzing results and steering the experiment.

Our group focuses on the development of methods for modeling and simulation. Of particular interest in our research are:

  • Discrete event formalism/languages particularly for multi-level and spatial modeling
  • Parallel, distributed, and sequential simulation algorithms
  • Flexible and reusable approaches for modeling, executing a model, and entire simulation studies
  • Reliability of simulation results
  • Performance evaluation of simulation techniques

 

Our work involves methodological approaches as well as the development and implementation of concrete tools. The work is propelled by and addresses challenges entailed by different application domains of M&S, such as computer science, demography, cell biology, and ecology.

 

Latest News

18.07.2017

The paper "Developing and validating a multi-level ecological model of eastern Baltic cod (Gadus morhua) in the Bornholm Basin - a case for domain-specific languages" has been accepted

The paper "Developing and validating a multi-level ecological model of eastern Baltic cod (Gadus morhua) in the Bornholm Basin - a case for domain-specific languages" by Maria E. Pierce, Tom Warnke, Uwe Krumme, Tobias...[more]


04.07.2017

Kick-Off-Meeting of the project "Bayesian Agent-Based Population Studies (BAPS): Transforming Simulation Models of Human Migration"

On June 30th, 2017 in Southampton the kick-off meeting for the project "Bayesian Agent-Based Population Studies (BAPS): Transforming Simulation Models of Human Migration" took place. The project is founded by the...[more]


31.05.2017

The DFG research project "Domain-specific languages for developing multi-scale, spatio-temporal biochemical models and their application" has been granted.

The research project is part of the newly established DFG Collaborative Research Centre (CRC) 1270 ‘Electrically Active Implants’ (ELAINE)  at the University of Rostock. In the project, simulation studies will be conducted...[more]


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