Sebestyen, A., Hirschberg, U., & Rasoulzadeh, S. (2023). Using deep learning to generate design spaces for architecture. International Journal of Architectural Computing, 21(2), 337–357. https://doi.org/10.1177/14780771231168232
E210-01 - Forschungsbereich Integrale Planung und Industriebau E057-16 - Fachbereich Center for Geometry and Computational Design
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Journal:
International Journal of Architectural Computing
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ISSN:
1478-0771
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Date (published):
Jun-2023
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Number of Pages:
21
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Publisher:
Sage Publications
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Peer reviewed:
Yes
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Keywords:
3D object generation; artificial intelligence; deep learning; design space; generative methods; machine learning; operative design; parametric design; variational autoencoder; voxels
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Abstract:
We present an early prototype of a design system that uses Deep Learning methodology—Conditional Variational Autoencoders (CVAE)—to arrive at custom design spaces that can be interactively explored using semantic labels. Our work is closely tied to principles of parametric design. We use parametric models to create the dataset needed to train the neural network, thus tackling the problem of lacking 3D datasets needed for deep learning. We propose that the CVAE functions as a parametric tool in itself: The solution space is larger and more diverse than the combined solution spaces of all parametric models used for training. We showcase multiple methods on how this solution space can be navigated and explored, supporting explorations such as object morphing, object addition, and rudimentary 3D style transfer. As a test case, we implemented some examples of the geometric taxonomy of “Operative Design” by Di Mari and Yoo.
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Research Areas:
Development and Advancement of the Architectural Arts: 50% Computer Science Foundations: 50%
