On Euclidean Steiner (1+ε)-Spanners

Abstract

Lightness and sparsity are two natural parameters for Euclidean (1+)-spanners. Classical results show that, when the dimension d∈ N and >0 are constant, every set S of n points in d-space admits an (1+)-spanners with O(n) edges and weight proportional to that of the Euclidean MST of S. Tight bounds on the dependence on >0 for constant d∈ N have been established only recently. Le and Solomon (FOCS 2019) showed that Steiner points can substantially improve the lightness and sparsity of a (1+)-spanner. They gave upper bounds of O(-(d+1)/2) for the minimum lightness in dimensions d≥ 3, and O(-(d-1))/2) for the minimum sparsity in d-space for all d≥ 1. They obtained lower bounds only in the plane (d=2). Le and Solomon (ESA 2020) also constructed Steiner (1+)-spanners of lightness O(-1) in the plane, where ∈ (n) is the spread of S, defined as the ratio between the maximum and minimum distance between a pair of points. In this work, we improve several bounds on the lightness and sparsity of Euclidean Steiner (1+)-spanners. Using a new geometric analysis, we establish lower bounds of (-d/2) for the lightness and (-(d-1)/2) for the sparsity of such spanners in Euclidean d-space for all d≥ 2. We use the geometric insight from our lower bound analysis to construct Steiner (1+)-spanners of lightness O(-1 n) for n points in Euclidean plane.