Algorithms for Diameters of Unicycle Graphs and Diameter-Optimally Augmenting Trees

Abstract

We consider the problem of computing the diameter of a unicycle graph (i.e., a graph with a unique cycle). We present an O(n) time algorithm for the problem, where n is the number of vertices of the graph. This improves the previous best O(n n) time solution [Oh and Ahn, ISAAC 2016]. Using this algorithm as a subroutine, we solve the problem of adding a shortcut to a tree so that the diameter of the new graph (which is a unicycle graph) is minimized; our algorithm takes O(n2 n) time and O(n) space. The previous best algorithms solve the problem in O(n2 3 n) time and O(n) space [Oh and Ahn, ISAAC 2016], or in O(n2) time and O(n2) space [Bil\`o, ISAAC 2018].