Yutaka Ohtake scite author profile

We present a new shape representation, the multi-level partition of unity implicit surface, that allows us to construct surface models from very large sets of points. There are three key ingredients to our approach: 1) piecewise quadratic functions that capture the local shape of the surface, 2) weighting functions (the partitions of unity) that blend together these local shape functions, and 3) an octree subdivision method that adapts to variations in the complexity of the local shape.Our approach gives us considerable flexibility in the choice of local shape functions, and in particular we can accurately represent sharp features such as edges and corners by selecting appropriate shape functions. An error-controlled subdivision leads to an adaptive approximation whose time and memory consumption depends on the required accuracy. Due to the separation of local approximation and local blending, the representation is not global and can be created and evaluated rapidly. Because our surfaces are described using implicit functions, operations such as shape blending, offsets, deformations and CSG are simple to perform.

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Multi-level partition of unity implicits

Ohtake¹,

Belyaev²,

Alexa

et al. 2003

249

267

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Ridge-valley lines on meshes via implicit surface fitting

2004

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We propose a simple and effective method for detecting view-and scale-independent ridge-valley lines defined via first-and secondorder curvature derivatives on shapes approximated by dense triangle meshes. A high-quality estimation of high-order surface derivatives is achieved by combining multi-level implicit surface fitting and finite difference approximations. We demonstrate that the ridges and valleys are geometrically and perceptually salient surface features and, therefore, can be potentially used for shape recognition, coding, and quality evaluation purposes.

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Mesh smoothing via mean and median filtering applied to face normals

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A multi-scale approach to 3D scattered data interpolation with compactly supported basis functions

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Yutaka Ohtake

Multi-level partition of unity implicits

Multi-level partition of unity implicits

Ridge-valley lines on meshes via implicit surface fitting

Mesh smoothing via mean and median filtering applied to face normals

A multi-scale approach to 3D scattered data interpolation with compactly supported basis functions

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