Masonry Shell Structures with Discrete Equivalence Classes

Rulin Chen, Pengyun Qiu, Peng Song, Bailin Deng, Ziqi Wang, Ying He
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Abstract

This paper proposes a method to model masonry shell structures where the shell elements fall into a set of discrete equivalence classes. Such shell structure can reduce the fabrication cost and simplify the physical construction due to reuse of a few template shell elements. Given a freeform surface, our goal is to generate a small set of template shell elements that can be reused to produce a seamless and buildable structure that closely resembles the surface. The major technical challenge in this process is balancing the desire for high reusability of template elements with the need for a seamless and buildable final structure. To address the challenge, we define three error metrics to measure the seamlessness and buildability of shell structures made from discrete equivalence classes and develop a hierarchical cluster-and-optimize approach to generate a small set of template elements that produce a structure closely approximating the surface with low error metrics. We demonstrate the feasibility of our approach on various freeform surfaces and geometric patterns, and validate buildability of our results with four physical prototypes. Code and data of this paper are at https://github.com/Linsanity81/TileableShell.
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具有离散等价类的砌体壳结构
本文提出了一种砌体壳结构的建模方法,其中壳单元属于一组离散等价类。这种壳体结构由于可以重复使用少量模板壳体元件,降低了制造成本,简化了物理结构。给定一个自由曲面,我们的目标是生成一小组模板外壳元素,这些元素可以被重用,以产生与表面非常相似的无缝和可构建的结构。在此过程中,主要的技术挑战是在模板元素的高可重用性与无缝和可构建的最终结构之间取得平衡。为了应对这一挑战,我们定义了三个误差指标来衡量由离散等效类制成的壳结构的无缝性和可建造性,并开发了一种分层聚类优化方法来生成一组模板元素,这些模板元素产生的结构与表面非常接近,误差指标低。我们在各种自由曲面和几何图案上证明了我们方法的可行性,并通过四个物理原型验证了我们结果的可构建性。本文的代码和数据见https://github.com/Linsanity81/TileableShell。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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