%0 Conference Paper %1 10.1007/978-3-031-37189-9_31 %A Elshani, Diellza %A Hernandez, Daniel %A Lombardi, Alessio %A Siriwardena, Lasath %A Schwinn, Tobias %A Fisher, Al %A Staab, Steffen %A Menges, Achim %A Wortmann, Thomas %B Computer-Aided Architectural Design. INTERCONNECTIONS: Co-computing Beyond Boundaries %C Cham %D 2023 %E Turrin, Michela %E Andriotis, Charalampos %E Rafiee, Azarakhsh %I Springer Nature Switzerland %K %P 470--484 %T Building Information Validation and Reasoning Using Semantic Web Technologies %X The integration of data from various disciplines, including requirements and regulations, is essential in the co-design of buildings. Constraints that arise during design, fabrication, or construction are mainly considered in the later stages of the design process. This often leads to costly revisions during fabrication or construction. While there are some works proposing Semantic Web approaches or ad-hoc methods to identify constraint violations in the early stages of design, they mainly rely on data derived from monolithic data schemas. This paper presents a Semantic Web approach that validates and checks building data derived from federated data schemas. The proposed approach is exemplified through the design process of a segmented timber shell, a complex structure requiring negotiations across architectural, engineering, and fabrication parameters. The Building Habitat object Models (BHoM) framework is used to represent federated building data, and the approach enables a seamless movement between the graph environment and object models to support the design process. Additionally, the study discusses various technologies that aid in knowledge inference or data validation. The results of this study suggest that the use of Semantic Web technologies in conjunction with federated data schemas has significant potential to enhance co-design processes in the building industry. While further research is needed to assess its effectiveness in other scenarios, our application of this approach in checking and validating building data for a complex segmented timber shell structure demonstrates its promise as a means to streamline the design process. %@ 978-3-031-37189-9

@inproceedings{10.1007/978-3-031-37189-9_31, abstract = {The integration of data from various disciplines, including requirements and regulations, is essential in the co-design of buildings. Constraints that arise during design, fabrication, or construction are mainly considered in the later stages of the design process. This often leads to costly revisions during fabrication or construction. While there are some works proposing Semantic Web approaches or ad-hoc methods to identify constraint violations in the early stages of design, they mainly rely on data derived from monolithic data schemas. This paper presents a Semantic Web approach that validates and checks building data derived from federated data schemas. The proposed approach is exemplified through the design process of a segmented timber shell, a complex structure requiring negotiations across architectural, engineering, and fabrication parameters. The Building Habitat object Models (BHoM) framework is used to represent federated building data, and the approach enables a seamless movement between the graph environment and object models to support the design process. Additionally, the study discusses various technologies that aid in knowledge inference or data validation. The results of this study suggest that the use of Semantic Web technologies in conjunction with federated data schemas has significant potential to enhance co-design processes in the building industry. While further research is needed to assess its effectiveness in other scenarios, our application of this approach in checking and validating building data for a complex segmented timber shell structure demonstrates its promise as a means to streamline the design process.}, added-at = {2024-03-26T18:38:32.000+0100}, address = {Cham}, author = {Elshani, Diellza and Hernandez, Daniel and Lombardi, Alessio and Siriwardena, Lasath and Schwinn, Tobias and Fisher, Al and Staab, Steffen and Menges, Achim and Wortmann, Thomas}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/276020f2c43ec4250eb244cc395f9076d/intcdc_fp2}, booktitle = {Computer-Aided Architectural Design. INTERCONNECTIONS: Co-computing Beyond Boundaries}, editor = {Turrin, Michela and Andriotis, Charalampos and Rafiee, Azarakhsh}, interhash = {1d160e9e94815a93f73bf813b93976d2}, intrahash = {76020f2c43ec4250eb244cc395f9076d}, isbn = {978-3-031-37189-9}, keywords = {}, pages = {470--484}, publisher = {Springer Nature Switzerland}, timestamp = {2024-03-26T18:38:32.000+0100}, title = {Building Information Validation and Reasoning Using Semantic Web Technologies}, year = 2023 }