I have a (somewhat complicated expression) in three dimensions, x,y,z. I'm interested in the cumulative integral over one of them. My best solution thus far is to create a 3D grid, evaluate the expression at every point, then integrate over the third dimension with cumtrapz. This is just a scaled down example of what I'm trying to achieve:

xvec = linspace(-pi,pi,40);
yvec = linspace(-pi,pi,40);
zvec = 1:160;
[x,y,z] = meshgrid(xvec,yvec,zvec);
f       = @(x,y,z) sin(x).*cos(y).*exp(z/80).*cos((x-z/20));
output  = cumtrapz(f(x,y,z),3);

for j = 1:length(output(1,1,:));

    shading interp

Given the sizes of vectors (x,y~100, z~5000), is this a computationally sensible way to do this?


if this is the function form you want to integrate over,@(x,y,z) sin(x).*cos(y).*exp(z/80).*cos((x-z/20)), x,y,z can be separately integrated and the integral can be analytically solved using complex number by replacing sin(x)=(exp(ix)-exp(ix))/2i, and cos(x)=(exp(ix)+exp(ix))/2, which will greatly reduce the time cost of your calculation

  • aha, I've made my example too simple. The actual expression is non separable, but fine point. – anon01 Apr 5 '16 at 21:41

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