Team:KULeuven/Data/Overview

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=== Introduction ===
=== Introduction ===
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When we developped the theoretical model of our system (see [[Team:KULeuven/Model/Overview | Modeling-section]]), the value of the different parameters (kinetic constants) were taken from different sources like Google Scholar, PubMed and biomedical databases, and will not fully represent the true scheme. This was performed to see if some unexpected behaviour was expected from that. Unfortunately, this kind of approximation do not have a predictable value if we do not know exactly the value of the model parameters.  
When we developped the theoretical model of our system (see [[Team:KULeuven/Model/Overview | Modeling-section]]), the value of the different parameters (kinetic constants) were taken from different sources like Google Scholar, PubMed and biomedical databases, and will not fully represent the true scheme. This was performed to see if some unexpected behaviour was expected from that. Unfortunately, this kind of approximation do not have a predictable value if we do not know exactly the value of the model parameters.  
Data analysis involves manipulating experimental data with the objective of extracting useful information. This then allows us to test our original hypotheses surrounding the problem, and in doing so, test the stringency/validity of our theoretical model. If the model proves to be valid, data analysis likewise provides a means of parameter extraction essential in rendering our theoretical model more realistic (as it gleans parameters from actual expimental data).
Data analysis involves manipulating experimental data with the objective of extracting useful information. This then allows us to test our original hypotheses surrounding the problem, and in doing so, test the stringency/validity of our theoretical model. If the model proves to be valid, data analysis likewise provides a means of parameter extraction essential in rendering our theoretical model more realistic (as it gleans parameters from actual expimental data).
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Revision as of 08:53, 6 August 2008

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Data analyse.png

Introduction

When we developped the theoretical model of our system (see Modeling-section), the value of the different parameters (kinetic constants) were taken from different sources like Google Scholar, PubMed and biomedical databases, and will not fully represent the true scheme. This was performed to see if some unexpected behaviour was expected from that. Unfortunately, this kind of approximation do not have a predictable value if we do not know exactly the value of the model parameters.

Data analysis involves manipulating experimental data with the objective of extracting useful information. This then allows us to test our original hypotheses surrounding the problem, and in doing so, test the stringency/validity of our theoretical model. If the model proves to be valid, data analysis likewise provides a means of parameter extraction essential in rendering our theoretical model more realistic (as it gleans parameters from actual expimental data).