Strong (r,p) Cover for Hypergraphs

Abstract

We introduce the notion of the strong (r,p) cover number c(G,k,r,p) for k-uniform hypergraphs G(V,E), where c(G,k,r,p) denotes the minimum number of r-colorings of vertices in V such that each hyperedge in E contains at least min(p,k) vertices of distinct colors in at least one of the c(G,k,r,p) r-colorings. We derive the exact values of c(Knk,k,r,p) for small values of n, k, r and p, where Knk denotes the complete k-uniform hypergraph of n vertices. We study the variation of c(G,k,r,p) with respect to changes in k, r, p and n; we show that c(G,k,r,p) is at least (i) c(G,k,r-1,p-1), and, (ii) c(G',k-1,r,p-1), where G' is any (n-1)-vertex induced sub-hypergraph of G. We establish a general upper bound for c(Knk,k,r,p) for complete k-uniform hypergraphs using a divide-and-conquer strategy for arbitrary values of k, r and p. We also relate c(G,k,r,p) to the number |E| of hyperedges, and the maximum hyperedge degree (dependency) d(G), as follows. We show that c(G,k,r,p)≤ x for integer x>0, if |E|≤ 12(rk(t-1)k rt-1)x , for any k-uniform hypergraph. We prove that a strong (r,p) cover of size x can be computed in randomized polynomial time if d(G)≤ 1e(rk(p-1)k rp-1)x-1.