The Connection of the Generalized Robinson–Foulds Metric with Partial Wiener Indices

Abstract

In this work we propose the partial Wiener index as one possible measure of branching in phylogenetic evolutionary trees. We establish the connection between the generalized Robinson-Foulds (RF) metric for measuring the similarity of phylogenetic trees and partial Wiener indices by expressing the number of conflicting pairs of edges in the generalized RF metric in terms of partial Wiener indices. To do so we compute the minimum and maximum value of the partial Wiener index [Formula: see text], where [Formula: see text] is a binary rooted tree with root [Formula: see text] and [Formula: see text] leaves. Moreover, under the Yule probabilistic model, we show how to compute the expected value of [Formula: see text]. As a direct consequence, we give exact formulas for the upper bound and the expected number of conflicting pairs. By doing so we provide a better theoretical understanding of the computational complexity of the generalized RF metric.