Konrad Polthier scite author profile

We introduce an algorithm for the automatic computation of global parameterizations on arbitrary simplicial 2-manifolds, whose parameter lines are guided by a given frame field, for example, by principal curvature frames. The parameter lines are globally continuous and allow a remeshing of the surface into quadrilaterals. The algorithm converts a given frame field into a single vector field on a branched covering of the 2-manifold and generates an integrable vector field by a Hodge decomposition on the covering space. Except for an optional smoothing and alignment of the initial frame field, the algorithm is fully automatic and generates high quality quadrilateral meshes.

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CubeCover– Parameterization of 3D Volumes

Nieser

Reitebuch

Polthier

2011

Computer Graphics Forum

173

170

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Anisotropic Filtering of Non‐Linear Surface Features

Hildebrandt

Polthier

2004

Computer Graphics Forum

191

166

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A new method for noise removal of arbitrary surfaces meshes is presented which focuses on the preservation and sharpening of non-linear geometric features such as curved surface regions and feature lines. Our method uses a prescribed mean curvature flow (PMC) for simplicial surfaces which is based on three new contributions: 1. the definition and efficient calculation of a discrete shape operator and principal curvature properties on simplicial surfaces that is fully consistent with the well-known discrete mean curvature formula, 2. an anisotropic discrete mean curvature vector that combines the advantages of the mean curvature normal with the special anisotropic behaviour along feature lines of a surface, and 3. an anisotropic prescribed mean curvature flow which converges to surfaces with an estimated mean curvature distribution and with preserved non-linear features. Additionally, the PMC flow prevents boundary shrinkage at constrained and free boundary segments.

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Konrad Polthier

Computing Discrete Minimal Surfaces and Their Conjugates

QuadCover ‐ Surface Parameterization using Branched Coverings

CubeCover– Parameterization of 3D Volumes

Anisotropic Filtering of Non‐Linear Surface Features

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