Linear relations between face numbers of levels in arrangements

Abstract

We study linear relations between face numbers of levels in arrangements. Let V = \ v1, …, vn \ ⊂ Rr be a vector configuration in general position, and let A(V) be polar dual arrangement of hemispheres in the d-dimensional unit sphere Sd, where d=r-1. For 0≤ s ≤ d and 0 ≤ t ≤ n, let fs,t(V) denote the number of faces of level t and dimension d-s in the arrangement A(V) (these correspond to partitions V=V- V0 V+ by linear hyperplanes with |V0|=s and |V-|=t). We call the matrix f(V):=[fs,t(V)] the f-matrix of V. Completing a long line of research on linear relations between face numbers of levels in arrangements, we determine, for every n≥ r ≥ 1, the affine space Fn,r spanned by the f-matrices of configurations of n vectors in general position in Rr; moreover, we determine the subspace F0n,r ⊂ Fn,r spanned by all pointed vector configurations (i.e., such that V is contained in some open linear halfspace), which correspond to point sets in Rd. This generalizes the classical fact that the Dehn--Sommerville relations generate all linear relations between the face numbers of simple polytopes (the faces at level 0) and answers a question posed by Andrzejak and Welzl in 2003. The key notion for the statements and the proofs of our results is the g-matrix of a vector configuration, which determines the f-matrix and generalizes the classical g-vector of a polytope. By Gale duality, we also obtain analogous results for partitions of vector configurations by sign patterns of nontrivial linear dependencies, and for Radon partitions of point sets in Rd.

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