2 research outputs found

    On Ryser's conjecture for linear intersecting multipartite hypergraphs

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    Ryser conjectured that τ⩽(r−1)ν for r-partite hypergraphs, where τ is the covering number and ν is the matching number. We prove this conjecture for r⩽9 in the special case of linear intersecting hypergraphs, in other words where every pair of lines meets in exactly one vertex. Aharoni formulated a stronger version of Ryser's conjecture which specified that each r-partite hypergraph should have a cover of size (r−1)ν of a particular form. We provide a counterexample to Aharoni's conjecture with r=13 and ν=1. We also report a number of computational results. For r=7, we find that there is no linear intersecting hypergraph that achieves the equality τ=r−1 in Ryser's conjecture, although non-linear examples are known. We exhibit intersecting non-linear examples achieving equality for r∈{9,13,17}. Also, we find that r=8 is the smallest value of r for which there exists a linear intersecting r-partite hypergraph that achieves τ=r−1 and is not isomorphic to a subhypergraph of a projective plane
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