On the Average (Edge-)Connectivity of Minimally k-(Edge-)Connected Graphs

Abstract

Let G be a graph of order n and let u,v be vertices of G. Let G(u,v) denote the maximum number of internally disjoint u-v paths in G. Then the average connectivity (G) of G, is defined as (G)=Σ\u,v\⊂eq V(G) G(u,v)/n2. If k 1 is an integer, then G is minimally k-connected if (G)=k and (G-e) < k for every edge e of G. We say that G is an optimal minimally k-connected graph if G has maximum average connectivity among all minimally k-connected graphs of order n. Based on a recent structure result for minimally 2-connected graphs we conjecture that, for every integer k 3, if G is an optimal minimally k-connected graph of order n≥ 2k+1, then G is bipartite, with the set of vertices of degree k and the set of vertices of degree exceeding k as its partite sets. We show that if this conjecture is true, then (G)< 9k/8 for every minimally k-connected graph G. For every k 3, we describe an infinite family of minimally k-connected graphs whose average connectivity is asymptotically 9k/8. Analogous results are established for the average edge-connectivity of minimally k-edge-connected graphs.

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