Covering Arrays on Product Graphs

Abstract

Two vectors x,y in Zgn are qualitatively independent if for all pairs (a,b)∈ Zg× Zg, there exists i∈ \1,2,…,n\ such that (xi,yi)=(a,b). A covering array on a graph G, denoted by CA(n,G,g), is a |V(G)|× n array on Zg with the property that any two rows which correspond to adjacent vertices in G are qualitatively independent. The number of columns in such array is called its size. Given a graph G, a covering array on G with minimum size is called optimal. Our primary concern in this paper is with constructions that make optimal covering arrays on large graphs those are obtained from product of smaller graphs. We consider four most extensively studied graph products in literature and give upper and lower bounds on the the size of covering arrays on graph products. We find families of graphs for which the size of covering array on the Cartesian product achieves the lower bound. Finally, we present a polynomial time approximation algorithm with approximation ratio (V2k-1) for constructing covering array on graph G=(V,E) with k>1 prime factors with respect to the Cartesian product.