I am trying to solve the SVM Primal Form in MATLAB using the Quadprog function. When the two classes are linearly separable, the SVM Minimization Problem to get the weight vector w becomes 1/2(||W||2)

subject to the constraint yi(wxi-b) >= 1

http://en.wikipedia.org/wiki/Support_vector_machine#Primal_form

The matlab quadprog function solves the following equation

x = quadprog(H,f,A,b) minimizes 1/2*x'*H*x + f'*x subject to the restrictions A*x ≤ b. A is a matrix of doubles, and b is a vector of doubles.

So, the primal form can easily be mapped to the quadprog function to get the weight vector w easily.. H becomes a identity matrix. f' becomes a zeros matrix. A is the left hand side of the constraint from earlier b is equal to -1 because the original constraint had >= 1, it becomes <= -1 when we multiply with -1 on both sides.

When I do this, the weight vector turns out great.

Now, I am trying to solve the SVM Soft Margin case from here

http://en.wikipedia.org/wiki/Support_vector_machine#Soft_margin

The minimization equation here is

min ((1/2) ||w||2 + C (summation of epsilon(i)) w,b

subject to the constraint yi(wxi-b) >= 1 - eplison (i) >= 0.

How can this optimization problem be solved using the MATLAB quadprog function. Its not clear how the equation should be mapped to the parameters of the quadprog function. I have been cracking my head on how without any luck.

Its been a long time since I studied SVM but from vague memory, I remember that the Primal Form in the Soft Margin is a NP problem, that's why we convert it to the Wolfe Dual Representation to solve it, but I am not sure.

I converted it into the dual form and am able to get the Lagrange variable values in the dual form, however I want to confirm that the primal form cannot be solved by itself.

Does anyone know how it can be solved using the matlab quadprog function? Or if it is actually a NP problem?

`quadprog`

. What are your difficulties? – Romeo Mar 20 '13 at 16:27