how can I evaluate a four fold integral with four variables numerically ?
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i used the functions quad, dblquad, and triplequad to evaluate up to three integrals, but i need to evaluate 4 integrals, how can i do that?
2 Comments
Muthu Annamalai
on 22 Sep 2014
Can you separate the kernel of the integral? This is usally the better way to solve the problem. It also provides a computational speeds up to the solution as well from O(n^4) to say 2*O(n^2) if you can split kernel into a function (product?) of 2 double integrals.
HTH.
Accepted Answer
Mike Hosea
on 23 Sep 2014
Edited: Mike Hosea
on 23 Sep 2014
There's one thing that people often find difficult: the requirement that the integrand accepts arrays and returns arrays, operating element-wise.
integral(@(x)integral3(@(y,z,w)f(x,y,z,w),ymin,ymax,zmin,zmax,wmin,wmax),xmin,xmax,'ArrayValued',true)
For smooth integrands over finite regions, a double integral of a double integral is usually a lot faster
integral2(@(x,y)arrayfun(@(x,y)integral2(@(z,w)f(x,y,z,w),zmin,zmax,wmin,wmax),x,y),xmin,xmax,ymin,ymax)
5 Comments
Mike Hosea
on 29 Sep 2014
You can't use integralN, but you should be able to do this:
quad2d(@(x,y)arrayfun(@(x,y)quad2d(@(z,w)f(x,y,z,w),zmin,zmax,wmin,wmax),x,y),xmin,xmax,ymin,ymax)
If your version is so old that you don't have QUAD2D, you can try this with DBLQUAD, but I don't recommend it. BTW, depending on how x and y are used in f(x,y,z,w), you might need to expand those arguments manually like so:
quad2d(@(x,y)arrayfun(@(x,y)quad2d(@(z,w)f(x*ones(size(z)),y*ones(size(z)),z,w),zmin,zmax,wmin,wmax),x,y),xmin,xmax,ymin,ymax)
More Answers (1)
Roger Stafford
on 22 Sep 2014
Set up a function which, when given the value of the outermost variable of integration, calculates the triple integral of the inner three iterated integrals for the particular value of that fourth variable. Then take the integral of the value of this newly-defined function over the appropriate limits for that fourth variable. There's nothing very difficult about that. Let the computer do all the hard work. You can expect it to take a fairly long time at it. That's inherent in doing integration in four dimensions.
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