Bounds on the Complexity of Halfspace Intersections when the Bounded
  Faces have Small Dimension

A Charnes; AK Dewdney; AWM Dress; B Chazelle; C Roos; CB Barber; D Avis; D Avis; D Eppstein; DA Spielman; David Eppstein; DR Chand; G Liotta; G Swart; H Hirai; HW Hamacher; J Matoušek; JR Isbell; KQ Brown; LG Khachiyan; M Chrobak; M Develin; M Queyranne; Maarten Löffler; N Karmarkar; N Megiddo; P McMullen; R Seidel; V Klee

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Bounds on the Complexity of Halfspace Intersections when the Bounded Faces have Small Dimension

Authors: A Charnes
AK Dewdney
AWM Dress
B Chazelle
C Roos
CB Barber
D Avis
D Avis
D Eppstein
DA Spielman
David Eppstein
DR Chand
G Liotta
G Swart
H Hirai
HW Hamacher
J Matoušek
JR Isbell
KQ Brown
LG Khachiyan
M Chrobak
M Develin
M Queyranne
Maarten Löffler
N Karmarkar
N Megiddo
P McMullen
R Seidel
V Klee
Publication date: 13 March 2011
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We study the combinatorial complexity of D-dimensional polyhedra defined as the intersection of n halfspaces, with the property that the highest dimension of any bounded face is much smaller than D. We show that, if d is the maximum dimension of a bounded face, then the number of vertices of the polyhedron is O(n^d) and the total number of bounded faces of the polyhedron is O(n^d^2). For inputs in general position the number of bounded faces is O(n^d). For any fixed d, we show how to compute the set of all vertices, how to determine the maximum dimension of a bounded face of the polyhedron, and how to compute the set of bounded faces in polynomial time, by solving a polynomial number of linear programs

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info:doi/10.1007%2Fs00454-013-...

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