Ordering Candidates via Vantage Points

Author(s)

Alon, Noga; Defant, Colin; Kravitz, Noah; Zhu, Daniel G.

Abstract

Given an n-element set C ⊆ R d and a (sufficiently generic) k-element multiset V ⊆ R d , we can order the points in C by ranking each point c ∈ C according to the sum of the distances from c to the points of V. Let Ψ k ( C ) denote the set of orderings of C that can be obtained in this manner as V varies, and let ψ d , k max ( n ) be the maximum of | Ψ k ( C ) | as C ranges over all n-element subsets of R d . We prove that ψ d , k max ( n ) = Θ d , k ( n 2 d k ) when d ≥ 2 and that ψ 1 , k max ( n ) = Θ k ( n 4 ⌈ k / 2 ⌉ - 2 ) . As a step toward proving this result, we establish a bound on the number of sign patterns determined by a collection of functions that are sums of radicals of nonnegative polynomials; this can be understood as an analogue of a classical theorem of Warren. We also prove several results about the set Ψ ( C ) = ⋃ k ≥ 1 Ψ k ( C ) ; this includes an exact description of Ψ ( C ) when d = 1 and when C is the set of vertices of a vertex-transitive polytope.

Date issued

2025-04-08

URI

https://hdl.handle.net/1721.1/159170

Department

Massachusetts Institute of Technology. Department of Mathematics

Journal

Combinatorica

Publisher

Springer Berlin Heidelberg

Citation

Alon, N., Defant, C., Kravitz, N. et al. Ordering Candidates via Vantage Points. Combinatorica 45, 25 (2025).

Version: Author's final manuscript