This thesis presents the development of a data mapping schema, designed to map data from ASB-ING to the IFC format. The innovation lies in the schema's ability to facilitate both automatic and manual modeling processes, leveraging data sourced from SIB-Bauwerke and grounded in ASB-ING standards. By employing this data, the thesis pioneers the construction of parameterized bridges within Revit, utilizing the Sofistik Bridge Modeler. This integration culminates in the bridges being cataloged and exported following the IFC4x3 standard, signifying a leap in interoperability of ASB-ING and IFC. A significant breakthrough of this research is the automated schema implementation through the development of a bespoke Revit ASB-ING extension. This tool innovatively simplifies the bridge mapping process by automatically generating a model for four specific bridge types, upon the input of a structure number, using the Revit API alongside the Sofistik Bridge Modeler API, followed by its exportation as an IFC4 file. The extension, whose codebase is hosted on GitHub for public access, is designed with scalability and adaptability in mind, offering a robust foundation for future enhancements and customizations.     «

This thesis presents the development of a data mapping schema, designed to map data from ASB-ING to the IFC format. The innovation lies in the schema's ability to facilitate both automatic and manual modeling processes, leveraging data sourced from SIB-Bauwerke and grounded in ASB-ING standards. By employing this data, the thesis pioneers the construction of parameterized bridges within Revit, utilizing the Sofistik Bridge Modeler. This integration culminates in the bridges being cataloged and e...     »