Team:Paris/Modeling
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<center>[[Team:Paris/Modeling/BOB|Read more]]</center> | <center>[[Team:Paris/Modeling/BOB|Read more]]</center> | ||
- | = APE ( | + | = APE (Approach with Parameters Estimation) Approach = |
[[Image:APE.jpg|250px|thumb|[http://en.wikipedia.org/wiki/Recursive_acronym Wondering what APE is standing for?]]] | [[Image:APE.jpg|250px|thumb|[http://en.wikipedia.org/wiki/Recursive_acronym Wondering what APE is standing for?]]] | ||
The second approach was motivated by our will to characterize our system in the most precise way. What is at stake here is to determine the real parameters that govern the dynamics of our system. | The second approach was motivated by our will to characterize our system in the most precise way. What is at stake here is to determine the real parameters that govern the dynamics of our system. |
Revision as of 09:47, 28 August 2008
We had different approaches to model the biological system. We found interesting to explain at least two ways that we went throught. It is important to understand that both models aim at different goals in the process of understanding our system. BOB (Based On Bibliography) ApproachOur first approach is quite rough and simple but effective. The goal here was to guess the behavior of our Bacteri'OClock, considering the overall system. Since it is a preliminary approach, we could not yet fill the model with data from the wet lab. This is why our work is mainly based on a bibliographic work, which allow us to use parameters and datas from scientific articles. The keys points of this approach:
APE (Approach with Parameters Estimation) ApproachThe second approach was motivated by our will to characterize our system in the most precise way. What is at stake here is to determine the real parameters that govern the dynamics of our system.
Depreciated pages |