The dataset is the release version v2.0.0 of the BHoM to bhOWL converter, which helps convert BHoM data to a knowledge graph in any software BHoM supports. BHoM (The Buildings and Habitats object Model) is collaborative framework that runs within several AEC design software, which helps to represent data in a object oriented database model. OWL (Web Ontology Language) provides a standardized and expressive language for representing knowledge and relationships within a domain. It allows for the creation of ontologies, which are formal descriptions of the concepts and relationships within a domain. Additionally, OWL can support reasoning and inference over ontologies, allowing for automated reasoning about the relationships between different concepts and data elements. This can be particularly useful in identifying inconsistencies or gaps in data, or in suggesting additional data sources or mappings that may be needed to support integration efforts. Our BHoM to bhOWL converter is developed as an extension to BHoM framework, and runs within any software that BHoM supports (eg. Grasshopper 3D, Excel, etc.) The dataset contains also example Grasshopper 3D files that exemplify the process of converting BHoM data to bhOWL.
C. Kropp, K. Braun, and Y. Boeva. Platformization of Urban Life. Towards a Technocapitalist Transformation of European Cities, transcript, Bielefeld, (September 2022)
D. Stieler, T. Schwinn, and A. Menges. Post Carbon - Proceedings of the 27th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA, (April 2022)
V. Schwieger, A. Menges, L. Zhang, and T. Schwinn. Zeitschrift für Geodäsie, Geoinformation und Landmanagement (ZfV), 144 (4):
223--230(2019)published, peer-review.
Y. Yang. University of Stuttgart, (2020)Master Thesis at Institute of Engineering Geodesy (Institut für Ingenieurgeodäsie Stuttgart) in cooperation with Institute for Lightweight Structures and Conceptual Design (Institut für Leichtbau Entwerfen und Konstruieren).
V. Schwieger, A. Menges, L. Zhang, and T. Schwinn. Zeitschrift für Geodäsie, Geoinformation und Landmanagement (ZfV), 144 (4):
223--230(2019)published, peer-review.
Y. Yang. University of Stuttgart, (2020)Master Thesis at Institute of Engineering Geodesy (Institut für Ingenieurgeodäsie Stuttgart) in cooperation with Institute for Lightweight Structures and Conceptual Design (Institut für Leichtbau Entwerfen und Konstruieren).
Y. Yang. University of Stuttgart, Master Thesis, (2020)Master Thesis at Institute of Engineering Geodesy (Institut für Ingenieurgeodäsie Stuttgart) in cooperation with Institute for Lightweight Structures and Conceptual Design (Institut für Leichtbau Entwerfen und Konstruieren).