Reducing the number of different nodes in space frame structures through clustering and optimization

Space frame structures are increasingly adopted in contemporary free-form architectural designs due to their elegant appearance and excellent structural performance. However, a space frame structure in a doubly-curved form typically comprises nodes of different shapes. This often requires extensive...

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Bibliographic Details
Published in:Engineering structures 2023-06, Vol.284, p.116016, Article 116016
Main Authors: Liu, Yuanpeng, Lee, Ting-Uei, Koronaki, Antiopi, Pietroni, Nico, Xie, Yi Min
Format: Article
Language:English
Subjects:
Architectural geometry
Clustering
Free-form surface
Node design
Optimization
Space frame structure
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Summary:Space frame structures are increasingly adopted in contemporary free-form architectural designs due to their elegant appearance and excellent structural performance. However, a space frame structure in a doubly-curved form typically comprises nodes of different shapes. This often requires extensive node customization, hence incurring high manufacturing costs. In this study, we propose a new clustering–optimization framework to reduce the number of different nodes in space frame structures. In clustering, nodes are divided into different groups, with similar shapes grouped together, using an enhanced k-means clustering technique. In optimization, nodes within the same group are transformed towards congruence while closely approximating the target surface. Together, by interleaving clustering and optimization, our method can minimize the node shape variety under a user-defined error threshold. The effectiveness of the method is validated through a variety of numerical examples. The potential practical application of our method is demonstrated by re-designing a complex, free-form architectural project. •A new method is proposed to reduce the node shape variety in space frame structures.•The core of the method is based on interleaving clustering and optimization.•Congruent nodes can be achieved by equalizing the corresponding angles.•The method is validated through various numerical examples of free-form geometries.•The practical relevance of the method is demonstrated by re-designing a real project.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2023.116016