2021
DOI: 10.1111/cgf.14356
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Normal‐Driven Spherical Shape Analogies

Abstract: This paper introduces a new method to stylize 3D geometry. The key observation is that the surface normal is an effective instrument to capture different geometric styles. Centered around this observation, we cast stylization as a shape analogy problem, where the analogy relationship is defined on the surface normal. This formulation can deform a 3D shape into different styles within a single framework. One can plug‐and‐play different target styles by providing an exemplar shape or an energy‐based style descri… Show more

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Cited by 9 publications
(4 citation statements)
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“…We compare the deformation result of female face with those obtained using the method of [7]. In the first row of Fig.…”
Section: Deformation Results Of Position Directions As Target Directionsmentioning
confidence: 99%
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“…We compare the deformation result of female face with those obtained using the method of [7]. In the first row of Fig.…”
Section: Deformation Results Of Position Directions As Target Directionsmentioning
confidence: 99%
“…Therefore, other than cubic stylization, more stylizations can be generated. Moreover, based on the same idea, Liu and Jacobson [7] developed an-other method for setting target normal directions, in which the directions were set through a spherical shape analogize to a sphere (the analogy shape), such as spherical parameterization or closest normal method [7].…”
Section: Normal-based Approachmentioning
confidence: 99%
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“…The simplest version of ARAP results from using constant rotations per triangle. This choice has the drawback that bending across edges is not penalized, but it may be useful when other constraints are considered simultaneously [LG15, ZG18, LJ21]. In this case, R$\mathbf {R}$ is computed in the local step based on the three vertices of a triangle, and divergence is computed in the usual way [PP03, Hir03], considering the columns of the rotation matrices as vector‐valued functions for each of the three coordinates.…”
Section: Derivation Of the Arap Energiesmentioning
confidence: 99%