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This slecture will be reviewed by Khalid Tahboub:
+
This slecture was reviewed by Khalid Tahboub:
 
+
  
 
1) I think the first equation should be
 
1) I think the first equation should be
 
 
<center><math>  
 
<center><math>  
 
F^{-1}(u)=inf\{ x|F(x)\geq u, \quad u\in [0, 1] \}  
 
F^{-1}(u)=inf\{ x|F(x)\geq u, \quad u\in [0, 1] \}  
Line 28: Line 26:
 
F(x) = \int_{-\infty}^x \lambda exp(-\lambda x') dx' = \int_0^x \lambda exp(-\lambda x') dx' = [-exp(-\lambda x')]_0^x = 1-exp(-\lambda x) \geq u  
 
F(x) = \int_{-\infty}^x \lambda exp(-\lambda x') dx' = \int_0^x \lambda exp(-\lambda x') dx' = [-exp(-\lambda x')]_0^x = 1-exp(-\lambda x) \geq u  
 
</math></center>
 
</math></center>
 +
 +
4) I think it might give a nice demonstration if you plot the histogram of U and X to show that this method really functions in the desired way.

Revision as of 19:45, 1 May 2014

This slecture was reviewed by Khalid Tahboub:

1) I think the first equation should be

$ F^{-1}(u)=inf\{ x|F(x)\geq u, \quad u\in [0, 1] \} $

instead of

$ F^{-1}(u)=inf\{ x|F(x)\leq u, \quad u\in [0, 1] \} $
2) How we reach
$ X <- F^{-1}(U)\quad $
from
$ F^{-1}(u)=inf\{ x|F(x)\geq u, \quad u\in [0, 1] \} $
is not very clear to me


3)I think the equation

$ F(x) = \int_{-\infty}^x \lambda exp(-\lambda x') dx' = \int_0^x \lambda exp(-\lambda x') dx' = [-exp(-\lambda x')]_0^x = 1-exp(-\lambda x) \leq u $

should be instead

$ F(x) = \int_{-\infty}^x \lambda exp(-\lambda x') dx' = \int_0^x \lambda exp(-\lambda x') dx' = [-exp(-\lambda x')]_0^x = 1-exp(-\lambda x) \geq u $

4) I think it might give a nice demonstration if you plot the histogram of U and X to show that this method really functions in the desired way.

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Recent Math PhD now doing a post-doctorate at UC Riverside.

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