Matthias Nieser 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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Hexagonal Global Parameterization of Arbitrary Surfaces

Nieser

Palacios

Polthier

et al. 2012

IEEE Trans. Visual. Comput. Graphics

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We introduce hexagonal global parameterization, a new type of surface parameterization in which parameter lines respect sixfold rotational symmetries (6-RoSy). Such parameterizations enable the tiling of surfaces with nearly regular hexagonal or triangular patterns, and can be used for triangular remeshing. Our framework to construct a hexagonal parameterization, referred to as HEXCOVER, extends the QUADCOVER algorithm and formulates necessary conditions for hexagonal parameterization. We also provide an algorithm to automatically generate a 6-RoSy field that respects directional and singularity features in the surface. We demonstrate the usefulness of our geometry-aware global parameterization with applications such as surface tiling with nearly regular textures and geometry patterns, as well as triangular and hexagonal remeshing.

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Matthias Nieser

QuadCover ‐ Surface Parameterization using Branched Coverings

CubeCover– Parameterization of 3D Volumes

Hexagonal Global Parameterization of Arbitrary Surfaces

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