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So I have the following function that I need to code:

Lm = 1/d Integral[exp(-i(a(x)t+mKx)) dx (from 0 to d)

What I have right now is:

L = (1/period) * int(exp(- 1i*(ax*t+(m*K*x))),x,0,period);
subs(L,[t,m],[beta0,tt]);

Where everything is symbolic. This takes a very long time if ax is anything challenging (sin(x)). So I would like to figure out a way to simplify this. I have an array a_x(xi) and I have been referred by colleagues to look into the quad function, but so far I am not sure how to use that.

thanks

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So ax is a symbolic function (symfun)? –  horchler Aug 12 '13 at 20:17
    
Yes it is, it varies based on what I need –  yankeefan11 Aug 13 '13 at 12:39

1 Answer 1

If your integrand doesn't change (variables not a function of x) then I see no reason why you couldn't take the output of the symbolic integration and use it numerically without performing the integration:

kmp = K.*m.*period/2
L = exp(-1i*(ax.*t+kmp)).*sin(kmp)./kmp

Otherwise, yes, you should look into Matlab's quadrature integration methods – they work vary similary to sym/int, but are for numerical values and functions. In newer versions of Matab try integral or use quadgk. Something like this:

fun = @(x)exp(-1i*(ax*t+(m*K*x)));
L = (1/period)*integral(fun,0,period);

Note that for highly oscillatory functions, most quadrature methods have difficulty. You should check that your results are actually correct in such cases. If Matlab's built-in quadrature routines have trouble, you could look into Levin integration schemes or maybe this.

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