Data-Informed Digital Twin for Large-Scale 3D Printing in Construction (2025-12)¶
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Journal Article - Automation in Construction, Vol. 182, No. 106706
Abstract
Large-scale 3D printing promises major benefits for the architecture, engineering and construction (AEC) industry but faces challenges including variable material behaviour, multi-machine coordination and dynamic process control. This paper presents a data-driven digital twin that couples real-time monitoring, predictive modelling and adaptive feedback. Machine parameters are continuously linked to material rheology and print outcomes, forming a virtual representation of the process. A clustering-based analysis classifies material mixtures and drives feedback control of printing parameters, improving stability, accuracy and efficiency. The digital twin is demonstrated on a large-scale setup with two machines operating in parallel and five services forming a closed feedback loop. Experiments show reduced material consumption by 7.5% and more consistent, higher-quality prints when using the predictive digital twin. These results indicate that integrating digital twins into large-scale 3D printing can support more robust, adaptive and scalable production.
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0 Citations
BibTeX
@article{skou_asaf_spre_meng.2026.DIDTfLS3PiC,
author = "Lior Skoury and Ofer Asaf and Aaron Sprecher and Achim Menges and Thomas Wortmann",
title = "Data-Informed Digital Twin for Large-Scale 3D Printing in Construction",
doi = "10.1016/j.autcon.2025.106706",
year = "2026",
journal = "Automation in Construction",
volume = "182",
pages = "106706",
}
Formatted Citation
L. Skoury, O. Asaf, A. Sprecher, A. Menges and T. Wortmann, “Data-Informed Digital Twin for Large-Scale 3D Printing in Construction”, Automation in Construction, vol. 182, p. 106706, 2026, doi: 10.1016/j.autcon.2025.106706.
Skoury, Lior, Ofer Asaf, Aaron Sprecher, Achim Menges, and Thomas Wortmann. “Data-Informed Digital Twin for Large-Scale 3D Printing in Construction”. Automation in Construction 182 (2026): 106706. https://doi.org/10.1016/j.autcon.2025.106706.