Fabrication Information Modeling (2022-07)¶
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Journal Article - Construction Robotics
Abstract
Digital manufacturing methods have been successfully used in different industries for years and have since had a positive effect on the development of their productivity. These methods offer significantly greater design freedom and make it possible to develop shape-optimized and function-activated components. In the construction industry, however, these technologies are only being used reluctantly, even though additive methods could make resource-efficient construction possible. The possibly decisive disadvantage of these methods is that a significantly higher granularity of product and process information is required, thus significantly increasing the planning effort. A circumstance that the framework described in this study, fabrication information modeling (FIM), could significantly mitigate by linking digital fabrication and BIM-based digital building design via a digital chain. For this purpose, FIM provides a methodology with which the information of a digital building model can be detailed, component by component, in a fabrication-aware manner. Based on the open exchange data format IFC, the FIM framework integrates seamlessly into the BIM context and enables automated detailing of the design information.
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8 References
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Additive Manufacturing in Construction - Paolini Alexander, Kollmannsberger Stefan, Rank Ernst (2019-10)
Additive Manufacturing in Construction:
A Review on Processes, Applications, and Digital Planning Methods - Slepicka Martin, Vilgertshofer Simon, Borrmann André (2021-11)
Fabrication Information Modeling:
Closing the Gap between Building Information Modeling and Digital Fabrication - Wolfs Robert, Bos Freek, Salet Theo (2019-03)
Hardened Properties of 3D Printed Concrete:
The Influence of Process Parameters on Inter-Layer Adhesion
9 Citations
- Bettermann Luca, Slepicka Martin, Esser Sebastian, Borrmann André (2025-05)
Data-Driven Parameter Calibration in Additive Manufacturing for Construction:
An Introduction to Learning by Printing - Li Chao, Petzold Frank (2025-01)
Ontology-Driven Mixture-of-Domain Documentation:
A Backbone Approach Enabling Question Answering for Additive Construction - Slepicka Martin, Borrmann André (2024-09)
Fabrication Information Modeling for Closed-Loop Design and Quality Improvement in Additive Manufacturing for Construction - Unglaub Julian, Müggenburg Marc, Jahns Hendrik, Kloft Harald et al. (2024-09)
Towards a Digital Twin to Enable First Time Right DED-Arc Components - Espinosa Simon, Slepicka Martin, Borrmann André (2024-06)
Integration of Laser Profiler Feedback into FIM for Additive Manufacturing in Construction - Peralta Abadi Patricia, Ahmad Muhammad, Smarsly Kay (2023-11)
Printing-Information-Modeling for Additive Manufacturing of Concrete Structures - Slepicka Martin, Mawas Karam, Borrmann André, Maboudi Mehdi et al. (2023-09)
Digital Twinning in Additive Manufacturing:
Closing the Digital-Physical-Digital Loop by Automated Integration of Captured Geometric Data into Fabrication Information Models - Slepicka Martin, Helou Jalal, Borrmann André (2023-07)
Real-Time Data Exchange Robot-Control Integration for Fabrication Information Modeling - Li Chao, Zahedi Ata, Petzold Frank (2022-11)
Pragmatic Design Decision Support for Additive Construction Using Formal Knowledge and Its Prospects for Synergy with a Feedback Mechanism
BibTeX
@article{slep_vilg_borr.2022.FIM,
author = "Martin Slepicka and Simon Vilgertshofer and André Borrmann",
title = "Fabrication Information Modeling: Interfacing Building Information Modeling with Digital Fabrication",
doi = "10.1007/s41693-022-00075-2",
year = "2022",
journal = "Construction Robotics",
}
Formatted Citation
M. Slepicka, S. Vilgertshofer and A. Borrmann, “Fabrication Information Modeling: Interfacing Building Information Modeling with Digital Fabrication”, Construction Robotics, 2022, doi: 10.1007/s41693-022-00075-2.
Slepicka, Martin, Simon Vilgertshofer, and André Borrmann. “Fabrication Information Modeling: Interfacing Building Information Modeling with Digital Fabrication”. Construction Robotics, 2022. https://doi.org/10.1007/s41693-022-00075-2.