This project integrates multiple infrastructure components, including a metro station, a bridge, a road, sludge management, and a primary sedimentation tank. Using Dynamo, we modeled and integrated these elements to optimize spatial efficiency and assess performance criteria. Additionally, we employed Protégé to develop an ontology that defines relationships between infrastructure systems. The integration of transport and wastewater infrastructure is essential for optimizing land use, minimizing environmental impact, and improving urban efficiency. Through this approach, we addressed engineering challenges ranging from structural compatibility to operational coordination. By co-locating these systems, the project enhances accessibility, reduces construction costs, and promotes sustainable resource management. Furthermore, a well-coordinated infrastructure network ensures resilience, operational efficiency, and a higher quality of life for urban populations.

Additionally, we employed Protégé to develop an ontology that defines what information each engineering team (civil engineers, environmental engineers, transportation engineers) requires in order to optimize workflow during the project. Including integration with Dynamo, engineers can note the defined input parameters which they have chosen in the Dynamo model as an annotation in Protege.