Difference between revisions of "Team:Grenoble-Alpes/engineering"

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To control those actions we use:
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To control those actions we use an Arduino microcontroller to handle the different electronic components and a raspberry pi (a very small and cheap computer) to display the results and interact with the user</p>
<li>an Arduino microcontroller to handle the different electronic components
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<li>a raspberry pi (a very small and cheap computer) to display the results and interact with the user</ul></p>
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The whole process takes place in a structure made of aluminum and Plexiglas.  
 
The whole process takes place in a structure made of aluminum and Plexiglas.  
 
The samples, buffers and pipette tips are placed on a central rotating plate that moves thanks to a motor controlled via our Arduino. </p>
 
The samples, buffers and pipette tips are placed on a central rotating plate that moves thanks to a motor controlled via our Arduino. </p>
 
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This circular structure is very convenient as:<ul>
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This circular structure is very convenient because it optimizes the space used and does not require to move the different modules, reducing the complexity of the system.</p>
<li>it optimizes the space used
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<li>it does not require to move the different modules, reducing the complexity of the system.</ul></p>
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If you want to jump ahead to one of those modules, feel free to click on them !</p>
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If you want to jump ahead to one of those modules, feel free to click on them !</font></p>
  
 
<img src="https://static.igem.org/mediawiki/2018/c/ce/T--Grenoble-Alpes--eng_bg.jpg" id="schema">
 
<img src="https://static.igem.org/mediawiki/2018/c/ce/T--Grenoble-Alpes--eng_bg.jpg" id="schema">

Revision as of 13:46, 9 October 2018

Template loop detected: Template:Grenoble-Alpes

ENGINEERING

In order to fully automate the whole biological process we need to be able to perform 4 main actions :

  • pipette liquid in and out of Eppendorf tubes

  • control the temperature of the samples

  • extract the DNA after the bacteriophages lysis step

  • measure the fluorescence at the end of the process in order to get a diagnosis

To control those actions we use an Arduino microcontroller to handle the different electronic components and a raspberry pi (a very small and cheap computer) to display the results and interact with the user

The whole process takes place in a structure made of aluminum and Plexiglas. The samples, buffers and pipette tips are placed on a central rotating plate that moves thanks to a motor controlled via our Arduino.

This circular structure is very convenient because it optimizes the space used and does not require to move the different modules, reducing the complexity of the system.

If you want to jump ahead to one of those modules, feel free to click on them !