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I know the procedure of transforming one distribution to another by the use of CDF. However, I would like to know if there is existing function in Matlab which can perform this task?

My another related question is that I computed CDF of my empirical using ecdf() function in Matlab for a distribution with 10,000 values. However, the output that I get from it contains only 9967 values. How can I get total 10,000 values for my CDF? Thanks.

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3 Answers

As you say, all you need is the CDF. The CDF of a normal distribution can be expressed in terms of the erf Matlab function.

Untested example:

C = @(x)(0.5 * (1 + erf(x/sqrt(2))));

x = randn(1,1000);  % Zero-mean, unit variance
y = C(x);           % Approximately uniform
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If I have an empirical CDF which is normal, but not deducted through analytical formula, then how would your code change? Thanks. –  Pupil Jul 3 '12 at 20:58
    
@S_H: I'm not sure I understand. Either the distribution is normal, or it isn't. Are you asking how it would change for a different mean and variance? –  Oli Charlesworth Jul 3 '12 at 20:59
    
Let's put it another way. I have an empirical distribution and I want to transform it to uniform distribution. I have CDF of that empirical distribution. In that case how would your answer change? Thanks! –  Pupil Jul 3 '12 at 21:02
    
@S_H: Replace C with a function that evaluates your CDF. –  Oli Charlesworth Jul 3 '12 at 21:03
    
How am I transforming it to uniform distribution in that case? x is a random number sampled from normal distribution and the CDF I have is an empirical distribution. How would my final distribution be uniform? –  Pupil Jul 3 '12 at 21:11
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This is not exactly what you are looking for, but it shows how to do the opposite. Reversing it should not be that bad.

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Thanks, but I came across this while searching before asking the question! –  Pupil Jul 3 '12 at 19:36
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up vote 0 down vote accepted
for t=1:nT 
    [f_CDFTemp,x_CDFTemp]=ecdf(uncon_noise_columndata_all_nModels_diff_t(:,1,t)); % compute CDF of empirical distribution
    f_CDF(1:length(f_CDFTemp),t) = f_CDFTemp; % store the CDF of different distributions with unequal size in a new variable
    x_CDF(1:length(x_CDFTemp),t) = x_CDFTemp;
    b_unifdist=4*t;
    [Noise.N, Noise.X]=hist((a_unifdist+(b_unifdist-a_unifdist).*f_CDF(:,t)),100); % generate the uniform distribution by using the CDF of empirical distribution as the CDF of the uniform distribution
    generatedNoise(:,:,t)=emprand(Noise.X,nRows,nCol); % sample some random numbers from the uniform distribution generated above by using 'emrand' function
end
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