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We are given a set A = {a1,a2,...,an}

Given subsets of A named B1,B2, ..., Bm. If a subset of A named H has intersection with all given B's, we call H "Covering subset". Is there any "covering subset" of size K (cardinality of H is K) for given A and Bs? Prove that this problem is NP-Complete.

We should reduce some known problem to "covering subset" problem.

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Stack Overflow is not a homework help site. Consider rewording your question and explain what you're confused about. –  Yuliy Jan 30 '11 at 4:28
    
This belongs to programmers.stackexchange.com anyways –  chx Jan 30 '11 at 4:34
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@Yuliy: actually, many times, it is. And there's nothing wrong with that. Of course, the OP has shown no effort put into the solution, so I can't see anyone helping him. –  David Titarenco Jan 30 '11 at 4:35
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@chx What PSE has to do with CS and algorithms? –  Nikita Rybak Jan 30 '11 at 4:41
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Might have better luck on cstheory.stackexchange.com –  aqua Jan 30 '11 at 5:22

1 Answer 1

update This is called a hitting set. You can read the same answer in wikipedia article.

This problem is, in a way, dual to set cover problem.

We'll change some terminology. Let {B1, B2, ...} be elements and {a1, a2, ...} be sets. 'Set' ai contains 'element' Bj in a new problem if set Bj contains ai in original problem.

Now, you just need to select minimum number of 'sets' ai covering all 'elements' Bj. And that problem is NP-complete, as shown in the link above.

To clarify the transformation, one problem definition can be produced from another just by replacing set/element and contains/contained. Compare following

Every set Bj contains some selected element ai
Every 'element' Bj is contained by some selected 'set' ai

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