Team:Paris/Network analysis and design/Core system/Mathematical analysis and simulations/Integration methods
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<center>[[Team:Paris/Network_analysis_and_design/Core_system|Back to the overall presentation of our system and model]]</center> | <center>[[Team:Paris/Network_analysis_and_design/Core_system|Back to the overall presentation of our system and model]]</center> | ||
- | <center>[[Team:Paris/Network_analysis_and_design/Core_system/Mathematical_analysis_and_simulations|Back to the | + | <center>[[Team:Paris/Network_analysis_and_design/Core_system/Mathematical_analysis_and_simulations|Back to the mathematical analysis and simulations]]</center> |
<center>[[Team:Paris/Network analysis and design/Core system/Mathematical analysis and simulations/Integration methods#Simulations and quick comparison between numerical methods|top of the page]]</center> | <center>[[Team:Paris/Network analysis and design/Core system/Mathematical analysis and simulations/Integration methods#Simulations and quick comparison between numerical methods|top of the page]]</center> |
Revision as of 13:55, 26 October 2008
Impact of integration methods
Simulations and quick comparison between numerical methodsThis section wil just be made of some simulations to show the influence of the solver used. Indeed, when it comes to detect oscillations, some weird phenomenon can just be produced by simulation algorithms' aterfact. We have just obtained the following curves for the same initial system of ODEs.
(The second picture is just a zoom, as defined by the red box)
(The second picture is just a zoom, as defined by the red box) One can notice that some oscillations seem to occur in the second case, which is not the case in simulations made with constant step. Therefore, the precise tuning of the algorithm used have to be undertaken in order to avoid false detection of oscillations. |