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The parameters are all obtained by <a class="tooltip"> latin hypercube<span class="tooltiptext" style="width:700px;"> Latin hypercube is a statistical method to get random numbers from a box of n by n numbers. For example x = 4 with x is divisions and n = 2 with n is number of samples. You will obtain a box with 4 square times 2 square, give you 24 random numbers. For each parameter one number out of this box is randomly chosen. </span> </a> samples. | The parameters are all obtained by <a class="tooltip"> latin hypercube<span class="tooltiptext" style="width:700px;"> Latin hypercube is a statistical method to get random numbers from a box of n by n numbers. For example x = 4 with x is divisions and n = 2 with n is number of samples. You will obtain a box with 4 square times 2 square, give you 24 random numbers. For each parameter one number out of this box is randomly chosen. </span> </a> samples. | ||
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<p onclick="javascript:ShowHide('HiddenDiv1')" style="border: 1px solid gray;">Quorum sensing system </p> | <p onclick="javascript:ShowHide('HiddenDiv1')" style="border: 1px solid gray;">Quorum sensing system </p> | ||
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Revision as of 15:39, 5 October 2016
Overview
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Quorum Sensing
Methods
During the research Matlab version R2016a has been used.
Because there was no data from the wet lab we assumed that all the parameters in the system were random.
The parameters are all obtained by latin hypercube Latin hypercube is a statistical method to get random numbers from a box of n by n numbers. For example x = 4 with x is divisions and n = 2 with n is number of samples. You will obtain a box with 4 square times 2 square, give you 24 random numbers. For each parameter one number out of this box is randomly chosen. samples.
Quorum sensing system