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I am using interp1 to inteprolate some data:

temp = 4 + (30-4).*rand(365,10);
depth = 1:10;

dz = 0.5; %define new depth interval
bthD = min(depth):dz:max(depth); %new depth vector

for i = 1:length(temp);
    i_temp(i,:) = interp1(depth,temp(i,:),bthD);
end

Here, I am increasing the resolution of my measurements by interpolating the measurements from 1 m increments to 0.5 m increments. This code works fine i.e. it gives me the matrix I was looking for. However, when I apply this to my actual data, it takes a long time to run, primarily as I am running an additional loop which runs through various cells. Is there a way of achieving what is described above without using the loop, in other words, is there a faster method?

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Is i_temp inside the for loop a typo? Do you mean layerP? –  Peter Nov 14 '12 at 17:01
    
Would it make more sense to use i_temp = interp1(depth,temp,bthD) ? –  dustincarr Nov 14 '12 at 17:05
    
Thanks, altered now, with regards to the answer provided by Dan Becker: I am looking for a solution that may avoid loops! –  KatyB Nov 14 '12 at 17:05
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1 Answer

up vote 5 down vote accepted

Replace your for loop with:

i_temp = interp1(depth,temp',bthD)';

You can get rid of the transposes if you change the way that temp is defined, and if you are OK with i_temp being a 19x365 array instead of 365x19.

BTW, the documentation for interp1 is very clear that you can pass in an array as the second argument.

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Great. I didn't realize that transposing the matrix made a difference (made it work). Thanks. –  KatyB Nov 14 '12 at 17:12
    
You're welcome! –  Dan Becker Nov 14 '12 at 21:42
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