I am trying to find a way to solve an Optimization problem as follows:
I have 22 different objects that can be selected more than once. I have a evaluation function
f that takes the multiplicities and calculates the total value.
f is a product over fractions of linear (affine) terms and as such, differentiable and even smooth in the allowed region.
I want to optimize f with respect to the 22 variables, with the additional conditions that certain sums may not exceed certain values (for example, if a,...,v are my variables,
a + e + i + m + q + s <= 9). By this, all of the variables are bounded.
If f were strictly monotonuous, this could be solved optimally by a (minimalistically modified) knapsack solution. However, the function isnt convex. That means it is even impossible to assume that if taking an object A is better than B on an empty knapsack, that this choice holds even when adding a third object C (as C could modify B's benefit to be better than A). This means that a greedy algorithm cannot be used;
Are there similar algorithms that solve such a problem in a optimal (or at least, nearly optimal) way?
EDIT: As requested, an example of what the problem is (I chose 5 variables a,b,c,d,e for simplicity) for example,
f(a,b,c,d,e) = e*(a*0.45+b*1.2-1)/(c+d)
(Every variable only appears once, if this helps at all)
Also, for example,
The problem is to optimize that with respect to a,b,c,d,e as integers. There is a bunch of optimization algorithms that hold for convex functions, but very few for non-convex...