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# Is there polynomial algorithm to this? Possibly dynamic programming approach?

Assume you are given a set A = {1, 2, ..., m} and a set B = {1, 2, ..., n}, such that each element from the set A has to be assigned to some element from B. The following parameters for each element i from the set A and each element j from the set B are known:

• Sij is the cost of assignment an element i to element j greater or equal to zero;
• tij is the minimal preference of element i to element j greater or equal to zero;
• Tij is the maximal preference of element i to element j greater or equal to zero.

For each fixed i, all values of tij, Tij (for all j's) are different. m and n are integers greater than 0, and the other variables are non-negative real numbers.

Elements from the set A are assigned to elements from B according to their preferences tij (or Tij). For example, if tij < tik (preferences Tij or Tik might be used in any case instead, read further), then element i will be assigned to j rather then k. Out of mn preferences, exactly r of them have to use value of Tij as a value of preference, and remaining mn - r have to use value of tij (which is lower value then Tij).

If element i is assigned to an element j, then the cost Sij is added to the total cost of assignment to element j, i.e., Cj = Cj + Sij. Let Max be the maximum among all costs Cj and Min the minimum among all costs Cj. The goal is to choose which preferences of assignment element i to element j will take the value of Tij, and which preferences will take the value of tij, such that the value of:

1. Max is minimal;
2. Max - Min is minimal.

I think there is some dynamic programming algorithm, but I'm not sure. Does anybody know how to solve this by DP approach, or any other? It might not be polynomial, however, but I think it is.

Example. Let m = 3, n = 2, i.e. A = {1, 2, 3} and B = {1, 2, 3}. Let r = 2, and matrices S, t and T be given as

``````    |5 9|      |1 3|      |10  7|
S = |7 1|, t = |4 2|, T = | 5  4|.
|8 4|      |3 4|      | 9 12|
``````

Solution is equal to 5 in the case of minimizing the value of Max. Similar example might be constructed for minimizing Max - Min.

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I smell some flavor of bin packing in the problem statement. Thus, not sure if the algorithm can be polynomial – Bill Mar 3 '14 at 2:30
You might not be able to optimize Max and Max - Min at the same time. Are those different goals or do you use Max - Min only as a tie breaker for solutions with the same Max? – Niklas B. Mar 3 '14 at 2:35
I'm sorry, maybe I wasn't clear. These are two different problems. First one is to minimize Max, and the second one to minimize Max - Min. – user3372185 Mar 3 '14 at 2:38
So you say you do `m*n` assignments. Which means every element of A is assigned to all elements in B. What am I misunderstanding? I think an example would greatly help this question. – Niklas B. Mar 3 '14 at 2:40
Also, what are the range restrictions for all of your variables (`n`, `m`, `r`, `S_ij`, `t_ij`, `T_ij`)? Are they all integers? Greater than zero? How large can they be at max? You need to be more specific on those points. – Niklas B. Mar 3 '14 at 2:42