Difference between revisions of "Team:Uppsala/Model"

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         <h1>Design</h1><br></br>
 
         <h1>Design</h1><br></br>
           <p> The model is built upon an ordinary differential equation (equation 1). Matlab is used for the calculation of the model, where Matlab's inbuilt function ode45 is used. The programs that were made and used for the calculations can be found here. At each step of the calculation, the program is looking at given temperature data for a year and other variables that will differ depending on the environment. These variables are described in table 1. Two extreme situations were analyzed, one where a horse has a parasite count that hits the threshold of maximum amount (100 000) of parasites and the second where the horse doesn’t have any parasites (although this is a very unlikely scenario).[5] The MATLAB code for the model can be found <a href="https://static.igem.org/mediawiki/2018/6/60/T--Uppsala--Anthelmintic_Model.pdf">here</a></p>
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           <p> The model is built upon an ordinary differential equation (equation 1). Matlab is used for the calculation of the model, where Matlab's inbuilt function ode45 is used. The programs that were made and used for the calculations can be found here. At each step of the calculation, the program is looking at given temperature data for a year and other variables that will differ depending on the environment. These variables are described in table 1. Two extreme situations were analyzed, one where a horse has a parasite count that hits the threshold of maximum amount (100 000) of parasites and the second where the horse doesn’t have any parasites (although this is a very unlikely scenario).[5] The MATLAB code for the model can be found <a href="https://static.igem.org/mediawiki/2018/6/60/T--Uppsala--Anthelmintic_Model.pdf">here</a>.</p>
  
  

Revision as of 13:49, 15 October 2018





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