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I have a situation where two or more nd arrays, with some coefficients, should add up (roughly) to a third array.

array1*c1 + array2*c2 ... = array3

I'm looking for the c1 and c2 that make the first two arrays best approximate array3. I'm sure some way of doing this exists in scipy, but I'm not sure where to start. Is there are specific module I should begin with?

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Not sure how to implement but check out optimize.fsolve in scipy. Make a function that returns array3-array1*c1+array2*c2(...) since fsolve finds the roots (i.e. where function = 0), and pass fsolve this function with initial guesses. You may have to sum the array before returning and this could introduce bad behaviour e.g. an array containing equal +ve and -ve values. Just a suggestion therefore. –  Jdog Sep 25 '12 at 10:18

2 Answers 2

up vote 3 down vote accepted

numpy.linalg.lstsq solves this for you. Object-oriented wrappers for that function, as well as more advanced regression models, are available in both scikit-learn and StatsModels.

(Disclaimer: I'm a scikit-learn developer, so this is not the most unbiased advice ever.)

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Something that allows errors to be associated with array values would also help, I assume the later options do this? –  Shep Sep 27 '12 at 7:20
@Shep: what do you mean by that? –  larsmans Sep 27 '12 at 9:35
basically looking for a way to weight the values I'm fitting. but maybe that's for another question –  Shep Sep 27 '12 at 14:58
You mean a weight per sample that determines how much it influences the function found? I think some of the regression learners in scikit-learn can do that, but I'm not sure which and how useful they are to you (I'm more into classification than regression). –  larsmans Sep 27 '12 at 15:32
Exactly. Weighting is definitely important in classification too, so I'd assume it exitst. –  Shep Sep 28 '12 at 16:26

This is just linear regression (http://en.wikipedia.org/wiki/Ordinary_least_squares).

Let the matrix A be have columns of array1, array2, ... Let the vector a be array3 and x be a the column vector [c1,c2,...]'.

You want to solve the problem min_{x} (Ax-a)^2.

Taking the derivative and setting to zero gives 0=A'Ax-A'a, which gives the solution x=(A'A)^{-1}A'a.

In numpy this is numpy.linalg.solve(numpy.dot(A.T,A),numpy.dot(A.T,a)).

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