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In short: I am currently reading Online Learning with Kernels ( for fun and I can't figure out how he got to equation 8 from equations 6 and 7.

The idea is: We want to minimize a risk function


If we want apply the representer theorem on f, writing it as

$f(x)=\sum\alpha_i k(x,x_i)$

how can we get to the STOCHASTIC gradient descent update?

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1 Answer 1

A set of k(xi, x) seems to form a basis of H, and since f is in H, then f can be written as a linear combination of "kernel functions".

So pretending set of k(xi, x) forms a basis of H, it's obvious that if we have some linear combation of the left-hand side and another on the right-hand side, and they're equal, then their basis vector coefficients should be equal too (it's well-known fact from linear algebra that vector equality means vector coefficients (in the same basis!) equality).

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Thank you very much for your reply, very illuminating. There is one more thing that confuses me though. – Jessica Dec 23 '12 at 9:44
How did they compute the derivative of ||f||^2 as f? As an example, again take f=sum_{i=1}^n a_ik(x,x_i). Then ||f|||=<f,f>=sum_isum_ja_ia_jk(x_i,x_j)=transpose(A)*KA where K is the gram matrix and A is the vector of coefficients. Then the derivative would be KA+transpose(A)*K=2*KA (a gradient vector). whereas simply f would be, in short, K_x*A (a number) where K_x is the xth row of the gram matrix. – Jessica Dec 23 '12 at 9:50
Oh, it's so hard to read / write math formulas on SO… I've written smple derivation of gradient by definition in latex: link – Barmaley.exe Dec 23 '12 at 10:41
And about your arguments: if we choose an orthonormal basis, then derivative of ||f||^2 would be 2A where A is f :-) f is vector, since it lies in linear space (and is a linear combination of basis vectors). – Barmaley.exe Dec 23 '12 at 10:45
Thank you very much again. I am still confused, in certain stages of the process. So I have written a (hopefully) more clear specification above. – Jessica Dec 23 '12 at 10:56

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