Team:Grenoble-EMSE-LSU/Project/Modelling/Density
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<p>A Model Predictive Control is a Process Control able to deal with complex systems like ours. As our system cannot be stabilized with a simple closed-loop control, it is therefore required to a control more advanced like this one. The aim is to drive our system to a setpoint by predicting the evolution of the system, and adapting the answer to these predictions. To do so, the control will use different kinds of variables:</p> | <p>A Model Predictive Control is a Process Control able to deal with complex systems like ours. As our system cannot be stabilized with a simple closed-loop control, it is therefore required to a control more advanced like this one. The aim is to drive our system to a setpoint by predicting the evolution of the system, and adapting the answer to these predictions. To do so, the control will use different kinds of variables:</p> | ||
<p>$\bullet$ Some variables defines the setpoint, here, we want to drive our living bacteria concentration to a determinate value.</p> | <p>$\bullet$ Some variables defines the setpoint, here, we want to drive our living bacteria concentration to a determinate value.</p> | ||
- | <p>$\bullet$ Some variables are measurable durong the experiment | + | <p>$\bullet$ Some variables are measurable durong the experiment. Here, the fluorescence. They are the only ones that will enable us to see if the system behaves according to plans.</p> |
<p>$\bullet$ Other cannont be measured and have to be estimated with the model. Precisely, the living bacteria concentration cannot be measured. This is a reason why the model has to be precise : we will not be able to measure our setpoint, it shall be estimated. | <p>$\bullet$ Other cannont be measured and have to be estimated with the model. Precisely, the living bacteria concentration cannot be measured. This is a reason why the model has to be precise : we will not be able to measure our setpoint, it shall be estimated. | ||
<p>$\bullet$ And variables are the ones used to act on the system. The light intensity will affect the system by decreasing the amount of living bacteria and the concentration of KillerRed.</p> | <p>$\bullet$ And variables are the ones used to act on the system. The light intensity will affect the system by decreasing the amount of living bacteria and the concentration of KillerRed.</p> | ||
<br> | <br> | ||
- | <p> | + | <p>This is how it works:</p> |
+ | <p>$1$. For the first point, | ||
</p> | </p> | ||
</li> | </li> |
Revision as of 12:56, 2 October 2013