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I'm working on a scheduling problem assigning speakers to slots, with speakers having varying availability. A maximum matching unweighed bipartite graph works for a simple solution where each speaker is assigned to a single slot.

Now assume after every slot someone speaks in, an empty slot should follow (except the last). How can this be modelled?

Finally, can graph theory be used when some speakers should speak for consecutive slots?


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By "after each matching", do you mean that each slot someone speaks in should be followed by an empty slot? The use of the word "matching" is ambiguous. – user2357112 Jul 29 '14 at 10:09
Yes @user2357112, that's exactly what I mean. Thanks, I've reworded this. – Marcus Jul 29 '14 at 10:09
If a speaker speaks for multiple slots, are the consecutive? – Patricia Shanahan Jul 29 '14 at 10:18
@PatriciaShanahan, yes consecutive slots. – Marcus Jul 29 '14 at 10:19
IMO this is off-topic for Stack Overflow. Maybe – NPE Jul 29 '14 at 10:24

1 Answer 1


  • every speaker who is available for an odd-numbered slot is also available for the following (even-numbered) slot, and
  • there is at most one speaker who needs 2 consecutive slots, and no speakers who need 3 or more,

then a very simple algorithm works: use unweighted maximum bipartite matching, but only allocate odd-numbered slots, leaving every even-numbered slot empty. If someone needs 2 consecutive slots, all that happens is that, for all pairs of slots following him/her, slot usage is swapped so that odd-numbered slots are left empty and even-numbered slots are used.

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I assume that the assumptions are incorrect. – Albert Hendriks Jul 31 '14 at 5:52

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