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I need to find an algorithm (preferably in Java) to solve the following problem (hoping it will be clearly expressed):

Given a matrix (not necessarily square) of 1 and 0 values, like the following:

Sample matrix

I must be able to determine the maximum number of cells, so that there are no pairs of cells among those selected having a row or a column in common.

For example, if the cell (Row_A, Col_Y) was selected, then the cells (Row_A, Col_V), (Row_A, Col_S), (Row_C, Col_Y), (Row_G, Col_Y) must be excluded.

The problem must be tackled as a bipartite graph, where a partition of the nodes is represented by rows, and columns from the other. There is a link only between nodes that have 1 in their respective cells.

So we will have the partition Part_Row, that will contain the following nodes: A, B, C, D, E, F, G. While the partition Part_Col will contain the nodes: Z, Y, X, W, V, T, S, R, Q. The arches will be:

A->Y, A-​​>S
B->Z, B->D
C->Y, C->X, C->S,
etc., etc.

How can I determine the maximum number of cells? Does it make sense to solve the maximum matching problem as a problem of maximum flow?

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I don't know if you've looked at previous answers about maximum bipartite matching. That one was framed for C/C++, but Java is not terribly different IMHO. In any case it validates your thought that it can be treated as max flow. –  hardmath Aug 24 '11 at 15:49
@hardmath thanks, your advice was very helpful. –  Fred Aug 26 '11 at 15:12
Sure, Fred. I think computational graph theory is pretty neat stuff. –  hardmath Aug 26 '11 at 18:41

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