A generalization of Erdos' matching conjecture

Abstract

Let H=(V,E) be an r-uniform hypergraph on n vertices and fix a positive integer k such that 1 k r. A k-matching of H is a collection of edges M⊂ E such that every subset of V whose cardinality equals k is contained in at most one element of M. The k-matching number of H is the maximum cardinality of a k-matching. A well-known problem, posed by Erdos, asks for the maximum number of edges in an r-uniform hypergraph under constraints on its 1-matching number. In this article we investigate the more general problem of determining the maximum number of edges in an r-uniform hypergraph on n vertices subject to the constraint that its k-matching number is strictly less than a. The problem can also be seen as a generalization of the, well-known, k-intersection problem. We propose candidate hypergraphs for the solution of this problem, and show that the extremal hypergraph is among this candidate set when n 4rrk2· a.