Review article

https://doi.org/10.31896/k.25.8

On the Structural Properties of Voronoi Diagrams

Leonard Weydemann ; University of Applied Arts Vienna, Vienna, Austria
Christian Clemenz ; University of Applied Arts Vienna, Vienna, Austria
Clemens Preisinger ; University of Applied Arts Vienna, Vienna, Austria

Abstract

A Voronoi diagram is a tessellation technique, which subdivides space into regions in proximity to a given set of objects called seeds. Patterns emerging naturally in biological processes (for example, in cell tissue) can be modelled in a biomimicry process via Voronoi diagrams. As they originate in nature, we investigate the physical properties of such patterns to determine whether they are optimal given the constraints imposed by surrounding geometry and natural forces.
This paper describes under what circumstances the Voronoi tessellation has optimal (structural) properties by surveying recent studies that apply this tessellation technique across different scales. To investigate the properties of random and optimized Voronoi tessellations in comparison to a regular tessellation method, we additionally run and evaluate a simulation in Karamba3D, a parametric structural engineering tool for Rhinoceros3D.
The novelty of this research lies in presenting a simple and straightforward simulation of Voronoi diagrams and highlighting how and where their advantages over regular tessellations can be exploited by surveying more advanced approaches as found in literature.

Keywords

Voronoi diagrams; 3D tessellations; 3D scaf- folds

Hrčak ID:

269233

URI

https://hrcak.srce.hr/269233

Publication date:

27.12.2021.

Article data in other languages: croatian

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