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First off, I didn't know what to put as title, since the question is not easy to formulate shortly.

I need to convolve a matrix-valued function (k) with a vector-valued function (X), each of which is defined on R^3. I need to to this in MATLAB, so naturally I will do the discretized version. I plan on representing k and X by 5- and 4-dimensional arrays, respectively. This seems a bit heavy though. Do you know if there are any better ways to do it?

Instead of doing the convolution directly, I will go to Fourier space by fft'ing both k and X, pad with zeros, multiply them and then use ifft. That should produce the same result and run much, much faster.

My question here is whether there is any way to multiply these arrays/matrices easily? I.e. is there any way to do k(i,j,k,:,:)*X(i,j,k,:) for all i,j,k, without using three nested loops?

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2 Answers 2

Do you need to discretize? Matlab is perfectly capable of taking functions as input and output. For examples, you could define a convolution function:

>> convolve = @(fm,fv) @(x) fm(x) * fv(x); %fm matrix valued, fv vector valued

and define some matrix-valued and vector-valued functions (this assumes the input is a column vector)

>> f = @(x) [x x x];
>> g = @(x) cos(x);

now their convolution:

>> h = convolve(f,g);

and try applying it to a vector:

>> h([1;2;3])
ans =

You get the same answer as if you did the operation manually:

>> f([1;2;3]) * g([1;2;3])
ans =
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I'm afraid I have to, since what I actually need to do is to convolve a matrix-valued function with a vector-valued stochastic process. I don't know, but I'm guessing stochastic processes are not easy to deal with in MATLAB without discretizing. –  torbonde Oct 30 '12 at 12:33
+1 for the nested function handle stuff. –  Acorbe Oct 30 '12 at 13:49
@Acorbe I've been spending too long with haskell... –  Chris Taylor Oct 30 '12 at 14:29

You perform element-by-element operation by using . together with the operator of choice. For example:

Element-by-element multiplication: .* 
Element-by-element division: ./

and so on... is that what you mean?

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No, I know that. What I need is more like element-by-element matrix multiplication, if that makes sense? In the above k(i,j,k,:,:) will be a matrix, and X(i,j,k) will be a vector. I need to multiply these for each i, j and k. –  torbonde Oct 30 '12 at 12:14
I see, have u tried using the conv2 method in MATLAB? Are you sure going to and back from the frequency domain is faster? –  FredrikRedin Oct 30 '12 at 12:17
I have not yet tried the loop-solution, which I would need to see if it was actually faster. So no, I actually haven't. However, I tried convolution vs. pointwise multiplication in Fourier space with two 4-dimensional arrays (size 600 x 20 x 20 x 3 or something like that). The convolution took ~5.5 seconds, whereas the multiplication version only took ~0.5 seconds. I suspect the same behavior will show with matrixmultiplaction. Especially when I need to even bigger arrays later on. –  torbonde Oct 30 '12 at 12:29

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