Timber joints analysis and design using shape and graph grammar-based machine learning approach: synthetic data preparation of timber joints’ shape and graph grammar for machine learning application.

Yau, Ho Man; Dounas, Theodoros; Jabi, Wassim; Lombardi, Davide

doi:10.52842/conf.ecaade.2023.1.569

Timber joints analysis and design using shape and graph grammar-based machine learning approach: synthetic data preparation of timber joints’ shape and graph grammar for machine learning application.

Yau, Ho Man; Dounas, Theodoros; Jabi, Wassim; Lombardi, Davide

Authors

Ho Man Yau

Theodoros Dounas

Wassim Jabi

Davide Lombardi

Contributors

Wolfgang Dokonal
Editor

Urs Hirschberg
Editor

Gabriel Wurzer
Editor

Abstract

Timber joints had been applied as one of the primary methods across different cultures of building construction. The technique of crafting timber joints uses simple geometry to connect different components without the need of adhesives or fixings. Digitalisation and computational design method provided a new approach to developing complex timber joint connections. By combining this traditional technique with computational design methods, shape, and graph grammar opened new opportunities in reinterpreting timber joint designs. In this paper, we proposed a timber joints' synthetic dataset preparation using shape grammar and graph grammar for machine learning applications. The research focused on designing a prototype of a shape grammar extraction system and graph extraction system manually and using Topologic in Sverchok, Blender, with a discussion on how to shape grammar applications help to analysis and create a larger database for future machine learning development of this project.

Citation

YAU, H.M., DOUNAS, T., JABI, W. and LOMBARDI, D. 2023. Timber joints analysis and design using shape and graph grammar-based machine learning approach: synthetic data preparation of timber joints’ shape and graph grammar for machine learning application. In Dokonal, W., Hirschberg, U. and Wurzer, G. (eds.) Digital design reconsidered: proceedings of the 41st Education and research in computer aided architectural design in Europe (eCAADe) conference 2023 (eCAADe 2023), 20-23 September 2023, Graz, Austria. Berlin: eCAADe, volume 1, pages 569-578. Hosted on CumInCAD [online]. Available from: https://doi.org/10.52842/conf.ecaade.2023.1.569

Conference Name	41st Education and research in computer aided architectural design in Europe (eCAADe) conference 2023 (eCAADe 2023): digital design reconsidered
Conference Location	Graz, Austria
Start Date	Sep 20, 2023
End Date	Sep 23, 2023
Acceptance Date	May 15, 2023
Online Publication Date	Sep 22, 2023
Publication Date	Sep 22, 2023
Deposit Date	Oct 5, 2023
Publicly Available Date	Oct 5, 2023
Publisher	Education and Research in Computer Aided Architectural Design in Europe (eCAADe)
Volume	1
Pages	569-578
Series Title	eCAADe proceedings
Series ISSN	2684-1843
Book Title	Digital design reconsidered: proceedings of the 41st Education and research in computer aided architectural design in Europe (eCAADe) conference 2023 (eCAADe 2023)
ISBN	9789491207341
DOI	https://doi.org/10.52842/conf.ecaade.2023.1.569
Keywords	Shape grammar; Graph grammar; Timber structures; Parametric design; Machine learning
Public URL	https://rgu-repository.worktribe.com/output/2093232