The planning of infrastructure such as roads, rail and subway tracks in the urban environment and the associated over- and underpasses place enormous demands on the engineers involved, since a variety of legal, economic, environmental and structural constraints have to be considered. In the framework of the Research Unit methods and techniques for cooperative planning of infrastructure buildings in 3D city and building models have to be explored and developed.
The focus is on the design of buildings and tracks. The 3D modelling interacts with a spatio-temporal database, image data and geo-web services via a collaboration platform. The geo-web services are also the interface to local planners, who locate themselves as well as the 3D design model using a mobile, image-based "Augmented Reality" system.
For example, for the evaluation of track routes, external sources of heterogeneous spatial data and GIS analysis methods are used that are accessed via the Internet using geo-web services.

DFG Programme Research Units

• Advanced Geo Web Services for the requirements of multi-scale 3D track planning - Assessment of design variants in their geographic context using flexible geoprocessing chains with validated consistency (Applicant Kolbe, Thomas H. )
• Cooperation platform for interactive, multi-disciplinary planning of inner-city carriage ways in multi-scale building models - integration of multi-scale simulations (Applicant Mundani, Ralf-Peter )
• Mobile image-based systems for on-site visualizations in the context of cooperative track-planning - trajectory determination of a multi-fisheye camera system in complex construction environments (Applicant Hinz, Stefan )
• Multi-scale methods for 3D city and building models - Graph-based methods for semi-automated generation of consistency-preserving multi-scale product models in infrastructure engineering (Applicant Borrmann, André )
• Spatio-temporal database for managing multi-scale 3D city s and building models - Hybrid model management (Applicant Breunig, Martin )

Spokesperson Professor Dr. Martin Breunig