Hello everyone, I have a question in optimization

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Ahmed Galal
Ahmed Galal le 16 Nov 2020
Commenté : Bruno Luong le 23 Nov 2020
Please find the attached question
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Bruno Luong
Bruno Luong le 16 Nov 2020
Modifié(e) : Bruno Luong le 16 Nov 2020
In this pdf: r_m c_m cannot be vectors since they are the bounds of the norms, which must be scalars.
Ahmed Galal
Ahmed Galal le 17 Nov 2020
Sorry, they are not identical only the constraints are identical. The objective function is L1, L2, and Linf, not only L1. I did a mistake

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Bruno Luong
Bruno Luong le 16 Nov 2020
Modifié(e) : Bruno Luong le 17 Nov 2020
The constraint (1c)
norm(R11*w+r00, Inf) >= rm
can be transformed as a union of 42 halfplanes
R11(i,:)*w+r00(i,:) >= rm
or
R11(i,:)*w+r00(i,:) <= -rm
for i=1,2,...21.
I would then suggest to solve 42 sub linear-programing problems by replacing the (1c) with one of those conditions. The sub problem can be solved with intlinprog, then we just take the argmin of those 42 problem solutions.
It must be more preditable and robust than GA.
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Matt J
Matt J le 23 Nov 2020
Modifié(e) : Matt J le 23 Nov 2020
so no the gradient does not use parethesis like your.
OK, but they should do it that way, no? They missed the opportunity to take advantage of the special form of the problem.
Bruno Luong
Bruno Luong le 23 Nov 2020
Does it really matter for accuracy? At the cost of 2 matrix-vector product per gradient evaluation instead of one?

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