Team:ETH Zurich/Modeling/Overview

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We created a 2D spatio-temporal model of the Colisweeper bacterial game to evaluate our network, validate the design and get some insights of how we can improve our system.  Essentially we study the diffusion of AHL in a hexagonal grid setup with mine and non-mine colonies.  For the simulation, we used COMSOL Multiphysics. Most of the model parameters are derived from literature, and few of them are fitted. <br>
We created a 2D spatio-temporal model of the Colisweeper bacterial game to evaluate our network, validate the design and get some insights of how we can improve our system.  Essentially we study the diffusion of AHL in a hexagonal grid setup with mine and non-mine colonies.  For the simulation, we used COMSOL Multiphysics. Most of the model parameters are derived from literature, and few of them are fitted. <br>
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Note: For parameter values and references click on a parameter or see the [[Team:ETH_Zurich/Parameter| parameters section]].
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Note: For parameter values and references click on the parameter of interest or have a look at the [[Team:ETH_Zurich/Parameter| parameters section]].
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Revision as of 13:31, 17 September 2013

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The digital bacterial-based minesweeper

We created a 2D spatio-temporal model of the Colisweeper bacterial game to evaluate our network, validate the design and get some insights of how we can improve our system. Essentially we study the diffusion of AHL in a hexagonal grid setup with mine and non-mine colonies. For the simulation, we used COMSOL Multiphysics. Most of the model parameters are derived from literature, and few of them are fitted.
Note: For parameter values and references click on the parameter of interest or have a look at the parameters section.