The structure of digraphs with excess one

Abstract

A digraph G is k-geodetic if for any (not necessarily distinct) vertices u,v there is at most one directed walk from u to v with length not exceeding k. The order of a k-geodetic digraph with minimum out-degree d is bounded below by the directed Moore bound M(d,k) = 1+d+d2+… +dk. The Moore bound can be met only in the trivial cases d = 1 and k = 1, so it is of interest to look for k-geodetic digraphs with out-degree d and smallest possible order M(d,k)+ε , where ε is the excess of the digraph. Miller, Miret and Sillasen recently ruled out the existence of digraphs with excess one for k = 3,4 and d ≥ 2 and for k = 2 and d ≥ 8. We conjecture that there are no digraphs with excess one for d,k ≥ 2 and in this paper we investigate the structure of minimal counterexamples to this conjecture. We severely constrain the possible structures of the outlier function and prove the non-existence of certain digraphs with degree three and excess one, as well closing the open cases k = 2 and d = 3,4,5,6,7 left by the analysis of Miller et al. We further show that there are no involutary digraphs with excess one, i.e. the outlier function of any such digraph must contain a cycle of length ≥ 3.