A Framework for Generic Semantic Enrichment of BIM Models

Abstract

The design intent and many meaningful semantics in building information modeling (BIM) models are often implicit, and some explicit semantics are lost during model exchanges. The missing information can be artificially supplemented through a process called semantic enrichment. However, previous research on semantic enrichment has primarily focused on specific tasks, leading to a limited scope of predictions, and lacks comprehensive, seamless approaches. In this study, we aim to infer BIM semantics from fundamental model data, pure object geometries, and organize the predicted results into a graph-based common data environment (CDE) to support intelligent applications. Consequently, we propose a framework of generic semantic enrichment that includes four fundamental tasks in the context of graphs and a process control mechanism to execute a set of tools in a proper sequence. To validate its feasibility, we selected a real-world apartment model and developed six tools to generate the graph-based CDE from its object geometries. Additionally, applications were implemented on the graph-based CDE, such as (1) enriching a pure geometry model from SketchUp to a BIM model in Revit; and (2) easing interoperability problems by reconstructing ArchiCAD models in Revit or downgrading Revit models to earlier versions. The experiment’s success demonstrates the feasibility of constructing BIM graphs from object geometries through semantic enrichment to enable intelligent applications. This study establishes a theoretical foundation for graph semantic enrichment and opens a door to further explore intelligent applications on BIM graphs.