Computational form-finding of single-layer spatial structures: Constructing force diagrams with Vector-based Graphic Statics and guiding trails

This article extends the Vector-based Graphic Statics (VGS) computational framework to design single-layer spatial (SLS) structures. It introduces a novel computational workflow that produces ordered and controllable vector-based force diagrams for real-time interactive design. Key advancements incl...

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Bibliographic Details
Published in:Automation in construction 2024-10, Vol.166, p.105519, Article 105519
Main Authors: Shen, Yuchi, Jasienski, Jean-Philippe, Ohlbrock, Patrick Ole, D'Acunto, Pierluigi
Format: Article
Language:English
Subjects:
3D graphic statics
Force diagram
Form diagram
Graph theory
Load-path
Planar graph
Planarization
Single-layer spatial structures
Structural design
Vector-based graphic statics
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Summary:This article extends the Vector-based Graphic Statics (VGS) computational framework to design single-layer spatial (SLS) structures. It introduces a novel computational workflow that produces ordered and controllable vector-based force diagrams for real-time interactive design. Key advancements include an algorithm for identifying guiding trails within the form diagram's underlying graph to control its planarization, an augmented half-edge (AHE) data structure for seamless force diagram assembly, and an interface for generating force diagrams using the Combinatorial Equilibrium Modelling (CEM) method. These advancements are demonstrated through practical design cases using the enhanced VGS framework, aiming to improve collaboration between structural engineers and architects by providing a direct and visual link between form and forces. •A novel method is proposed to generate controllable vector-based force diagrams for Single-layer Spatial (SLS) structures.•An algorithm is developed to generate guiding trails to control the planarization of the form diagram's underlying graph.•An augmented half-edge (AHE) data structure is developed for easy assembly of the force diagrams.•An interface is developed for constructing force diagrams using the Combinatorial Equilibrium Modelling (CEM) method.•Case studies demonstrate the enhancements brought by the updated vector-based graphic statics framework for designing.
ISSN:0926-5805
DOI:10.1016/j.autcon.2024.105519