Samenvatting
We introduce two geometry-based morphing techniques that build upon the existing Voronoi and
mixed morphs. These morphs are Hausdorff morphs, meaning they linearly interpolate the Hausdorff
distance between the two polygons. Our new morphs are also Hausdorff morphs, and additionally
reduce the number of components in intermediate shapes. In an experimental analysis we record
data on the area, perimeter and total angular change throughout the morph, and the number of holes
and components. Our new morphs perform better in these aspects than their original counterparts
and the new component-reduced mixed morph also appears to introduce fewer visual artifacts in the
intermediate polygons.
mixed morphs. These morphs are Hausdorff morphs, meaning they linearly interpolate the Hausdorff
distance between the two polygons. Our new morphs are also Hausdorff morphs, and additionally
reduce the number of components in intermediate shapes. In an experimental analysis we record
data on the area, perimeter and total angular change throughout the morph, and the number of holes
and components. Our new morphs perform better in these aspects than their original counterparts
and the new component-reduced mixed morph also appears to introduce fewer visual artifacts in the
intermediate polygons.
Originele taal-2 | Engels |
---|---|
Pagina's | 4:1-4:8 |
Aantal pagina's | 8 |
Status | Gepubliceerd - mrt. 2024 |
Evenement | 40th European Workshop on Computational Geometry (EuroCG 2024) - Ioannina, Griekenland Duur: 13 mrt. 2024 → 15 mrt. 2024 |
Congres
Congres | 40th European Workshop on Computational Geometry (EuroCG 2024) |
---|---|
Land/Regio | Griekenland |
Stad | Ioannina |
Periode | 13/03/24 → 15/03/24 |