On Cyclic Kautz Digraphs

Abstract

A prominent problem in Graph Theory is to find extremal graphs or digraphs with restrictions in their diameter, degree and number of vertices. Here we obtain a new family of digraphs with minimal diameter, that is, given the number of vertices and out-degree there is no other digraph with a smaller diameter. This new family is called modified cyclic digraphs MCK(d,) and it is derived from the Kautz digraphs K(d,). %It is not common to find non-regular digraphs with minimal diameter given their number of vertices and out-degree. It is well-known that the Kautz digraphs K(d,) have the smallest diameter among all digraphs with their number of vertices and degree. We define the cyclic Kautz digraphs CK(d,), whose vertices are labeled by all possible sequences a1… a of length , such that each character ai is chosen from an alphabet containing d+1 distinct symbols, where the consecutive characters in the sequence are different (as in Kautz digraphs), and now also requiring that a1≠ a. The cyclic Kautz digraphs CK(d,) have arcs between vertices a1 a2… a and a2 … a a+1, with a1≠ a and a2≠ a+1. Unlike in Kautz digraphs K(d,), any label of a vertex of CK(d,) can be cyclically shifted to form again a label of a vertex of CK(d,). We give the main parameters of CK(d,): number of vertices, number of arcs, and diameter. Moreover, we construct the modified cyclic Kautz digraphs MCK(d,) to obtain the same diameter as in the Kautz digraphs, and we show that MCK(d,) are d-out-regular. Finally, we compute the number of vertices of the iterated line digraphs of CK(d,).