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Given a matrix A, i’m looking for the set of p columns that maximizes the minimum on the sum of the matched cells in each row.

For example: if p=2 and A=

1 2 4

3 0 3

5 6 2

Choosing C1 and C2 would give f=min(r1,r2,r3)=min(1+2; 3+0; 5+6)=3

While choosing C1 and C3 would give f=min(1+4; 3+3; 5+2)=5 which is the best choice.

Is there any algorithm or heuristic doing so..

Thanks

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What is stopping you from just using all the columns? Negative numbers? Is there any reason this problem is showing up? - it sounds a bit like an ACM challenge. –  missingno Jul 31 '11 at 14:33
    
@missingno: a set of p columns. And I doubt ACMer will look for heuristics, but see what OP say. –  Ziyao Wei Jul 31 '11 at 14:34
    
How big can p be? –  missingno Jul 31 '11 at 14:37
    
@missigno as big and as small as n/2 I guess –  unkulunkulu Jul 31 '11 at 14:37
    
A simple heuristic is to greedily choose columns based on the "minimum value in columns" heuristic: choose the column that has the largest minimum value, subtract those values from the rest of the array. For example, in your case, C3 has the largest minimum, so subtract to get C1=-3,0,3 and C2=-2,-3,-4. In the second iteration, choose C1. –  Foo Bah Jul 31 '11 at 14:44
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1 Answer

This problem is NP-hard via a trivial reduction from set cover (let A be the 0-1 matrix representing the element-set containment relation). I would try a MIP solver on the straightforward integer-program formulation, where c(j) is 1 if the jth column is taken and 0 otherwise.

maximize lambda
subject to
lambda <= c(1) A(i,1) + ... + c(n) A(i,n)    for all i
c(1) + ... + c(n) = p
c(j) in {0, 1}                               for all j
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