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I have a lot of datapoints and I want to compute the area under the curve for sliding windows. But It should be quite fast. I googled a bit and found a NewtonCotes implementation in Java, but I don´t know if there are faster methods.

Any Ideas?

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We cannot answer your question without knowing your requirements as to the precision of the quadrature. Please consider reading some materials on numerical analysis first. –  Deer Hunter Oct 9 '12 at 11:07
    
It doesn´t need to be super precise, abs(E(f)) < 1 is ok. I already considered the trapezoid rule, but maybe there are methods I havent heard of which are faster. And the next thing is that I don´t know which implementation is fast. –  Puckl Oct 9 '12 at 11:25
    
Define "fast". What's your requirement? –  duffymo Oct 9 '12 at 11:44

1 Answer 1

The answer depends on the function you're trying to integrate. Gauss quadrature can be very efficient indeed if applied to the right function. 5th order adaptive Runga-Kutta can do very well, too.

An adaptive method that automatically increases refinement to meet a given accuracy requirement is quite doable.

The fastest code to write is a library:

http://commons.apache.org/math/

I'd recommend a book like Numerical Recipes or another by Forman Acton.

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