Straight skeletons and mitered offsets of nonconvex polytopes

F. Aurenhammer; G. Walzl

doi:10.1007/s00454-016-9811-5

Straight skeletons and mitered offsets of nonconvex polytopes

F. Aurenhammer, G. Walzl

Institute of Theoretical Computer Science (7080)

Research output: Contribution to journal › Article › peer-review

Abstract

We give a concise definition of mitered offset surfaces for nonconvex polytopes in ℝ³, along with a proof of existence and a discussion of basic properties. These results imply the existence of 3D straight skeletons for general nonconvex polytopes. The geometric, topological, and algorithmic features of such skeletons are investigated, including a classification of their constructing events in the generic case. Our results extend to the weighted setting, to a larger class of polytope decompositions, and to general dimensions. For (weighted) straight skeletons of an n-facet polytope in ℝ^d, an upper bound of O(n^d) on their combinatorial complexity is derived. It relies on a novel layer partition for straight skeletons, and improves the trivial bound by an order of magnitude for d≥3.

Original language	English
Pages (from-to)	743-801
Journal	Discrete & Computational Geometry
Volume	56
Issue number	3
DOIs	https://doi.org/10.1007/s00454-016-9811-5
Publication status	Published - 2016

Keywords

3D straight skeleton
Mitered offset surface
Arrangement of planes

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10.1007/s00454-016-9811-5Licence: CC BY 4.0

aw-skmosnp-16Accepted author manuscript, 610 KBLicence: CC BY 4.0
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abstract = "We give a concise definition of mitered offset surfaces for nonconvex polytopes in ℝ3, along with a proof of existence and a discussion of basic properties. These results imply the existence of 3D straight skeletons for general nonconvex polytopes. The geometric, topological, and algorithmic features of such skeletons are investigated, including a classification of their constructing events in the generic case. Our results extend to the weighted setting, to a larger class of polytope decompositions, and to general dimensions. For (weighted) straight skeletons of an n-facet polytope in ℝd, an upper bound of O(nd) on their combinatorial complexity is derived. It relies on a novel layer partition for straight skeletons, and improves the trivial bound by an order of magnitude for d≥3.",

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T1 - Straight skeletons and mitered offsets of nonconvex polytopes

AU - Aurenhammer, F.

AU - Walzl, G.

PY - 2016

Y1 - 2016

N2 - We give a concise definition of mitered offset surfaces for nonconvex polytopes in ℝ3, along with a proof of existence and a discussion of basic properties. These results imply the existence of 3D straight skeletons for general nonconvex polytopes. The geometric, topological, and algorithmic features of such skeletons are investigated, including a classification of their constructing events in the generic case. Our results extend to the weighted setting, to a larger class of polytope decompositions, and to general dimensions. For (weighted) straight skeletons of an n-facet polytope in ℝd, an upper bound of O(nd) on their combinatorial complexity is derived. It relies on a novel layer partition for straight skeletons, and improves the trivial bound by an order of magnitude for d≥3.

AB - We give a concise definition of mitered offset surfaces for nonconvex polytopes in ℝ3, along with a proof of existence and a discussion of basic properties. These results imply the existence of 3D straight skeletons for general nonconvex polytopes. The geometric, topological, and algorithmic features of such skeletons are investigated, including a classification of their constructing events in the generic case. Our results extend to the weighted setting, to a larger class of polytope decompositions, and to general dimensions. For (weighted) straight skeletons of an n-facet polytope in ℝd, an upper bound of O(nd) on their combinatorial complexity is derived. It relies on a novel layer partition for straight skeletons, and improves the trivial bound by an order of magnitude for d≥3.

KW - 3D straight skeleton

KW - Mitered offset surface

KW - Arrangement of planes

U2 - 10.1007/s00454-016-9811-5

DO - 10.1007/s00454-016-9811-5

M3 - Article

SN - 0179-5376

VL - 56

SP - 743

EP - 801

JO - Discrete & Computational Geometry

JF - Discrete & Computational Geometry

IS - 3

ER -

Straight skeletons and mitered offsets of nonconvex polytopes

Abstract

Keywords

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