We analyze the problem of tessellating an n-sided patch with an ideal, maximally-regular internal quadrangulation, featuring a single irregular vertex (or none, for n=4). We derive, in closed-form, the necessary and sufficient conditions that the boundary of the patch must meet for it to admit an internal quadrangulation of this kind, and, if so, provide a full description of the resulting tessellation(s), as functions of the number of edges subdividing the sides of the patch. The problem has been addressed in previous literature and from multiple angles: our new derivation, which is self-contained and more succinct, is also more complete. In particular, we show that multiple such tessellations can exist, for n=8 (and larger multiples of 4), and enumerate them. This contradicts the commonly held notion that irregular vertices can never be moved in isolation, in a quadrangulated mesh.
Closed-form quadrangulation of n-sided patches / M. Tarini. - In: COMPUTERS & GRAPHICS. - ISSN 0097-8493. - 107:(2022), pp. 60-65. ((Intervento presentato al 3. convegno Shape Modeling International tenutosi a Genova : 27-29 June nel 2022 [10.1016/j.cag.2022.06.015].
Closed-form quadrangulation of n-sided patches
M. Tarini
Primo
2022
Abstract
We analyze the problem of tessellating an n-sided patch with an ideal, maximally-regular internal quadrangulation, featuring a single irregular vertex (or none, for n=4). We derive, in closed-form, the necessary and sufficient conditions that the boundary of the patch must meet for it to admit an internal quadrangulation of this kind, and, if so, provide a full description of the resulting tessellation(s), as functions of the number of edges subdividing the sides of the patch. The problem has been addressed in previous literature and from multiple angles: our new derivation, which is self-contained and more succinct, is also more complete. In particular, we show that multiple such tessellations can exist, for n=8 (and larger multiples of 4), and enumerate them. This contradicts the commonly held notion that irregular vertices can never be moved in isolation, in a quadrangulated mesh.
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