Computing irregular hypar-based quad-mesh patterns for segmented timber shells

IF 3 3区 计算机科学 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Markus Hudert , David Lindemann , László Mangliár , Andrew Swann
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引用次数: 0

Abstract

Hyperbolic paraboloids, “hypars,” are special types of ruled surfaces. Their geometric properties provide them with loadbearing and stabilizing capacities, as well as distinct esthetic qualities. These attributes become evident in numerous applications in buildings, in many of which concrete or timber is used for the construction of the hypars. Hypars could also be relevant in the context of circular construction and design for disassembly, and the upcycling of construction waste. Due to the geometric simplicity of straight lines, which generate ruled surfaces, hypar-based structures can be designed and built with relatively simple means. They can consist of self-similar or even identical elements, which could facilitate their reuse.

Compared to other types of ruled surfaces, such as conoids, hypars have the advantage of being doubly ruled, meaning that structural grids of straight elements can be formed. This paper investigates another interesting property, which is the possibility of creating flat-quad meshes by diagonally connecting the intersection points of the generatrices. This property has been previously described by other scholars, some of which explored its applicability for glass-clad steel grid shells. In this research, we focus on its potential for segmented timber shells that can serve as stand-alone structures, or as modular and reusable building parts, such as façade or roof components. The reusability of such modular units could be achieved by using reversible joints between them.

More specifically, our research investigates the design space of construction systems based on such components via computational design and optimization algorithms, such as the memory limited Broyden–Fletcher–Goldfarb–Shanno (LBFGS) algorithm with automatic computation of the gradient, within the Julia programming environment. By applying principles and methods of differential geometry, we study hypars with irregular tilings, enabling the integration of panels with diverse proportions, shapes and sizes, as they can occur in wood production waste. By reducing construction waste, the work aims at reducing the negative environmental impact of the building construction sector. Moreover, irregular tilings could enable a more customized design of acoustic qualities and offer visual variety in segmented hypar based timber structures.

The here presented studies show that the proposed optimization method provides a good fit of many tiles to rhombi, particularly when the steepness is not too large. We also show that optimizing towards rectangles provides better results. Overall, the results support the initial assumption that irregular rulings could be a means of adapting to both homogeneous and diverse material stocks.

为分段木壳计算基于 hypar 的不规则四网格模式
双曲抛物面("hypars")是一种特殊的规则曲面。它们的几何特性使其具有承重和稳定能力,以及独特的美学品质。这些特性在建筑物的许多应用中都非常明显,其中许多建筑物都使用混凝土或木材来建造次抛物面。Hypars 还可用于循环建筑、拆卸设计和建筑垃圾的回收利用。由于产生规则表面的直线具有几何简单性,因此可以用相对简单的方法设计和建造基于超 Par 的结构。与其他类型的规则表面(如圆锥体)相比,hypar 具有双重规则的优势,这意味着可以形成由直线元素组成的结构网格。本文还研究了另一个有趣的特性,即通过对角连接生成网格的交点来创建平面四边形网格的可能性。其他学者也曾描述过这一特性,其中一些学者还探讨了它在玻璃包钢网格壳体中的适用性。在本研究中,我们将重点关注其在分段木壳中的应用潜力,分段木壳既可作为独立结构,也可作为模块化和可重复使用的建筑部件,如外墙或屋顶部件。更具体地说,我们的研究通过计算设计和优化算法(如在 Julia 编程环境中自动计算梯度的内存有限 Broyden-Fletcher-Goldfarb-Shanno (LBFGS) 算法)研究了基于此类组件的建筑系统的设计空间。通过应用微分几何学的原理和方法,我们研究了具有不规则倾斜面的 hypars,从而能够整合不同比例、形状和尺寸的板材,因为它们可能出现在木材生产废料中。通过减少建筑垃圾,这项工作旨在降低建筑施工行业对环境的负面影响。此外,不规则的瓦片可以实现更个性化的声学质量设计,并为基于 hypar 的分段式木结构提供视觉多样性。在此介绍的研究表明,所提出的优化方法可以很好地将许多瓦片与菱形相匹配,特别是当陡度不太大时。我们还发现,针对矩形进行优化能获得更好的结果。总之,这些结果支持了最初的假设,即不规则的规则可以是适应同质和多样化材料库存的一种手段。
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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来源期刊
Computer-Aided Design
Computer-Aided Design 工程技术-计算机:软件工程
CiteScore
5.50
自引率
4.70%
发文量
117
审稿时长
4.2 months
期刊介绍: Computer-Aided Design is a leading international journal that provides academia and industry with key papers on research and developments in the application of computers to design. Computer-Aided Design invites papers reporting new research, as well as novel or particularly significant applications, within a wide range of topics, spanning all stages of design process from concept creation to manufacture and beyond.
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