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I am using a book with a function I would like to use. However I don't think I am getting the correct values from my function.

Here is the instruction from the book:

alt text

Here is the function as I have created it in MATLAB:

function [ shortProbability ] = pShort( zkt, zktStar, short)

if zkt > zktStar
    shortProbability = 0;
    normalizer = 1/(1-exp(-short*zktStar));
    shortProbability = normalizer * (short * exp(-short*zkt));


The values I am plugging in are:

zkt = 0:1:100
zktStar = 50;
short = 0.01;

However my graph doesn't behave like the one which I am supposed to end up with, which is this:

alt text

I am getting this from the graph, which looks correct, however I don't think it is being normalized properly:

alt text

Can anyone help me to correct this function?

share|improve this question
Well, what are you getting? – Oliver Charlesworth Sep 5 '10 at 13:42
When p(zkt) is a probability density function, to integral vom -inf to +inf should equal 1. By just looking at your plot, the distribution does doesn't look wrong. – zellus Sep 5 '10 at 14:40
@James: Assuming we're supposed to be looking at the blue graph, that looks about right (at least as far as normalisation). It's roughly a rectangular function of height 0.02 and width 50, so has area equal to about 1. Therefore it's a valid PDF. – Oliver Charlesworth Sep 5 '10 at 15:22

1 Answer 1

up vote 1 down vote accepted

This is the exponential distribution. You can use EXPPDF and EXPCDF from the Statistics Toolbox:

normalizer = 1 ./ ( expcdf(zktStar,1/short) - expcdf(0,1/short) );
shortProbability = exppdf(zkt, 1/short) * normalizer;

and it should be equivalent to what you have...

This is what I get when I combine it with the graph from your previous question:

alt text

To confirm, we compute the area under each of the curves (close enough to 1):

>> trapz(zkt,hitProbabilty)
ans =

>> trapz(zkt,shortProbability)
ans =
share|improve this answer
Thanks again Amro, your really helping me out! I've been able to convert these MATLAB functions to C# by using the MathsDotNet library, they contain a lot of useful methods for these statistic functions. – James Sep 6 '10 at 7:01

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