Abstract
The undirected degree/diameter and degree/girth problems and their directed analogues have been studied for many decades in the search for efficient network topologies. Recently such questions have received much attention in the setting of mixed graphs, i.e. networks that admit both undirected edges and directed arcs. The degree/diameter problem for mixed graphs asks for the largest possible order of a network with diameter k, maximum undirected degree le r and maximum directed out-degree le z. Similarly one can search for the smallest possible k-geodetic mixed graphs with minimum undirected degree ge r and minimum directed out-degree ge z. A simple counting argument reveals the existence of a natural bound, the Moore bound, on the order of such graphs; a graph that meets this limit is a mixed Moore graph. Mixed Moore graphs can exist only for k = 2 and even in this case it is known that they are extremely rare. It is therefore of interest to search for graphs with order one away from the Moore bound. Such graphs must be out-regular; a much more difficult question is whether they must be totally regular. For k = 2, we answer this question in the affirmative, thereby resolving an open problem stated in a recent paper of López and Miret. We also present partial results for larger k. We finally put these results to practical use by proving the uniqueness of a 2-geodetic mixed graph with order exceeding the Moore bound by one.
Highlights
The degree/diameter and degree/girth problems have their roots in the design of efficient interconnection networks
The undirected degree/diameter problem asks for the maximum possible order of a graph with given maximum degree d and diameter k
We show that k-geodetic mixed graphs with undirected degree ≥ r, directed out-degree ≥ z and excess one are totally regular for k = 2, and for k ≥ 3 we prove total regularity for mixed graphs with directed out-degree z = 1
Summary
The degree/diameter and degree/girth problems have their roots in the design of efficient interconnection networks. The undirected degree/diameter problem asks for the maximum possible order of a graph with given maximum degree d and diameter k. This graph has the property of total regularity, i.e. its undirected subgraph is regular and its directed subgraph is diregular. The existence of k-geodetic mixed graphs with undirected degree ≥ r , directed out-degree ≥ z and order M(r , z, k) + 1 is an intriguing problem. Conditions on r and z for the existence of such graphs for k = 2 are given in [24] along with examples of small k-geodetic mixed graphs and new bounds on the order of totally regular kgeodetic mixed graphs.
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