- There are different
categorieswhich contain an arbitrary amount of
- There are three different
attributesA, B and C. Each element does have an other distribution of these
attributes. This distribution is expressed through a positive integer value. For example, element 1 has the attributes
A: 42 B: 1337 C: 18. The sum of these attributes is not consistent over the elements. Some elements have more than others.
Now the problem:
We want to choose exactly one element from each category so that
- We hit a certain threshold on attributes A and B (going over it is also possible, but not necessary)
- while getting a maximum amount of C.
Example: we want to hit at least 80 A and 150 B in sum over all chosen elements and want as many C as possible.
I've thought about this problem and cannot imagine an efficient solution. The sample sizes are about 15 categories from which each contains up to ~30 elements, so bruteforcing doesn't seem to be very effective since there are potentially 30^15 possibilities.
My model is that I think of it as a tree with depth number of categories. Each depth level represents a category and gives us the choice of choosing an element out of this category. When passing over a node, we add the attributes of the represented element to our sum which we want to optimize.
If we hit the same attribute combination multiple times on the same level, we merge them so that we can stripe away the multiple computation of already computed values. If we reach a level where one path has less value in all three attributes, we don't follow it anymore from there.
However, in the worst case this tree still has ~30^15 nodes in it.
Does anybody of you can think of an algorithm which may aid me to solve this problem? Or could you explain why you think that there doesn't exist an algorithm for this?