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I have an array P = [1, 5, 3, 6, 4, ...] of size N and average A.

I want to find the most efficient way to maximize the following 3D function:

f(x, y) = 1 / ( (1+e^(-6(x-2))) * (1+e^(-6(y-2))) * (1+e^(-0.1x-0.3y+1.5)) )

Function gcontour plot

where x = c(S) = Count(S) and y = m(S) = Min(S[0]/A, S[1]/A, ..., S[n]/A), and S is a subset of P. The subset does not have to be continuous in P.

I have a feeling that this can maybe be reduced to some variant of the subset sum problem but I really have no idea where to start other than sorting P. The goal is to implement the algorithm in PHP, but really any pseudocode would help a lot.

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  • What is S in the equations? Or should that be P?
    – fubar
    Jul 17, 2018 at 0:06
  • Let me edit that, it's a subset of P.
    – Mat
    Jul 17, 2018 at 0:08
  • 5
    @Mat Probably math.stackexchange.com will be more suitable for this kind of question. I would say this is more related to math/optimisation than programming.
    – mleko
    Jul 17, 2018 at 6:36
  • @mleko I definitely hesitated because I do wish to have the answer be compatible with PHP and because pseudocode seems more suitable here. I honestly don't know, you might be right.
    – Mat
    Jul 17, 2018 at 6:39
  • @Mat, perhaps make it a two parter. Find the logic, and post back here if you need help implementing it in PHP?
    – fubar
    Jul 17, 2018 at 19:49

1 Answer 1

2
+25

If you are looking for a clever math reduction, agree with others, the place is the math exchange. Otherwise, start with the Math_Combinatorics library. Then you should be able to grind through all unique combinations of S with:

require_once 'Math/Combinatorics.php';
$combos = new Math_Combinatorics;

$P = [1, 5, 3, 6, 4, ...];
for ($n = 1; $n <= count($P); $n++) {
    foreach ($combos->combinations($P, $n) as $S) {
        ... your calculations on S go here ...
    }
}

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