Improved Bounds for Discrete Voronoi Games

Abstract

In the planar one-round discrete Voronoi game, two players P and Q compete over a set V of n voters represented by points in R2. First, P places a set P of k points, then Q places a set Q of points, and then each voter v∈ V is won by the player who has placed a point closest to v. It is well known that if k==1, then P can always win n/3 voters and that this is worst-case optimal. We study the setting where k>1 and =1. We present lower bounds on the number of voters that P can always win, which improve the existing bounds for all k≥ 4. As a by-product, we obtain improved bounds on small -nets for convex ranges. These results are for the L2 metric. We also obtain lower bounds on the number of voters that P can always win when distances are measured in the L1 metric.