# Halton sequence extension

I am trying to fill an area defined by 2 intervals [a,b] x [c,d] with points uniformly distributed and I am implementing the Halton sequence. I am using the following code (which generates subunitary numbers).

``````      The number I is input.
The number H is output.

for i = 1:N
H = 0
half = 1 / 2
I = rand() % MATLAB rand()
do while ( I is not zero )
digit = mod ( I, 2 )
H = H + digit * half
I = ( I - digit ) / 2
half = half / 2
end
x(i) = H
end
``````

For the x-axis I use base 2 and for the y-axis I use base 3. Because I divide by 2, 3 I seem to be unable to fill the whole [0,1] x [0,1] space completely. I have to fill [0,1] x [0,1] and I actually fill [0,0.5] x [0,0.35]. And when I try to extend the algorithm for [a,b] x [c,d] I get points in [a,b-0.5] x [c,d-1]. What can I do to fill the correct `full` intervals?

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I don't find a problem with the pseudocode you posted; could you post the code you use instead? –  Ziyao Wei May 25 '13 at 15:49
Posted. Could the rand() from MATLAB/Octave be the problem? –  Silent Control May 25 '13 at 15:55
The code you posted does not match the algorithm here: en.wikipedia.org/wiki/Halton_sequence, and I don't understand why you use rand(). Isn't the point of using Halton sequence being it is a quasi-random sequence? –  Ziyao Wei May 25 '13 at 16:03
What is N in your outer loop? –  pjs May 25 '13 at 16:04
Ok, solved. I was trying with the rand() to force the Halton sequence from quasi-random to random, but it didn't work as expected. –  Silent Control May 25 '13 at 16:33
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