"
Team:Imperial College/Motility Control
From 2008.igem.org
m |
|||
| Line 5: | Line 5: | ||
The following figure shows the results of our model fitting. We have introduced a change in flagellar force at certain points of the cell trajectory so as to achieve a better fit. A maximum of two runs were allowed for each cell trajectory. | The following figure shows the results of our model fitting. We have introduced a change in flagellar force at certain points of the cell trajectory so as to achieve a better fit. A maximum of two runs were allowed for each cell trajectory. | ||
| - | [[Image:Fitted_Models.jpg| | + | [[Image:Fitted_Models.jpg|900px|center]]<br> |
The MATLAB Distribution Fitting Tool was used to model the distribution of parameter A. Parameter A was found to be exponentially distributed. The following figures describe the probability density function and cumulative density function. | The MATLAB Distribution Fitting Tool was used to model the distribution of parameter A. Parameter A was found to be exponentially distributed. The following figures describe the probability density function and cumulative density function. | ||
| - | [[Image:Exponential_Distribution_for_Parameter_A_PDF.jpg | + | [[Image:Exponential_Distribution_for_Parameter_A_PDF.jpg|center|450px]] |
| - | [[Image:Exponential_Distribution_for_Parameter_A_CDF.jpg|450px|center]]<br> |}} | + | <center>Probability Distribution for Parameter A</center><br> |
| + | [[Image:Exponential_Distribution_for_Parameter_A_CDF.jpg|450px|center]] | ||
| + | <center>Cumulative Distribution for Parameter A</center><br> |}} | ||
{{Imperial/Box2|Conclusion| | {{Imperial/Box2|Conclusion| | ||
Revision as of 18:35, 29 October 2008
| |||||||||||||||||||
Results of Motility Analysis
|
|||||||||||||||||||
