(Kopie 1)
(Kopie 1)
The FID BAUdigital project addressed the topic of research data and research data management. We built a network with consortia of the National Research Data Infrastructure (NFDI) in order to organise joint workshops and events. In this context, a research data repository in beta stage was developed, which was based on the open source software CKAN. It was used for test purposes during the project. The repository made it possible to assign DOIs and to specify a simple metadata record for a data publication. The operation of the repository also demonstrated the integration with the Workbench of the FID BAUdigital. While the repository had a pure publication function, the Workbench offers a range of other subject-specific tools, for example to prepare large 3D data for the web and enrich it with subject-specific metadata. The further development of the research data repository was discontinued during the course of the project in favour of the Workbench. The operation of the repository was also terminated at the end of the project.
The research data repository, for example, offered 3D models from the DuraArK project as well as other digital reconstructions of buildings by our scientific partners. You can still find these models and reconstructions via their DOIs. At the bottom of this page you will find an overview of the various datasets.
The Workbench has now found a new home in the NFDI4Ing and is still available as the NFDI4Ing Data Ingest Service.
You want to publish research data related to architecture, civil engineering and urbanism (ifc models, point clouds, BIM models, etc.) and make it available for other researchers to reuse?
We recommend RADAR4Culture from NFDI4Culture.
as a domain-relevant data repository.
The re3data service allows to search for research data repositories from different domains.
The website https://forschungsdaten.info/ provides an overview of all research data management topics in various disciplines, as well as regional and research data management initiatives in the DACH region.
https://doi.org/10.57807/stcuppox
The model is a visualisation of Kreuter's maps and shows details of Cologne before 1840. The maps were created between 1850 and 1857 and depict large parts of Cologne's city centre before far-reaching changes were made to the cityscape in the mid-19th century. The facades of medieval buildings are depicted, as are the boundaries of the parish districts. Franz Anton Kreuter, who drew the maps, also recorded further information in written annotations. These are often house names, residents and businesses as well as historical events. This model, which visualises the maps in three dimensions, was compiled from the 112 physical documents in Kreuter's topographical collection. Two interactive applications and a short video were created based on this model.
Video on YouTube: www.youtube.com/watch
The Kreuter_3D desktop application: doi.org/10.5281/zenodo.10580403
The virtual reality application for the Meta Quest 2: doi.org/10.5281/zenodo.10580516
The project was part of the practical part of Lukas Lammers's master's thesis. The physical documents of the collection are located in the Historical Archive with Rhenish Image Archive of the City of Cologne, in directory unit 337, 1 to 112. (Translated from German)
https://doi.org/10.57807/zt2ij71j
This is a 3D scan (point cloud) of an office created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/ld9pswlf
This is a 3D scan (point cloud) of an installation created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/8nmq46c6
Reconstruction of the Speyer Synagogue around 1250 AD, with visible certainty levels
https://doi.org/10.57807/ojqlnoxk
The synagogue in Volpa was probably built in the first half of the 18th century in what is now Belarus. The author of the project is unknown. It was renovated several times between 1903 and 1936, especially the roof and the aron ha-kodesh. In 1929 it was declared a cultural monument. It was destroyed by the Germans in June 1941 or December 1942. The floor plan of the synagogue is strictly symmetrical - this is particularly emphasised on the west wall by the two-storey niches. The impressive octagonal vault has the intended effect of correcting the perspective. It makes the main hall appear higher than it actually is. The vault is divided into storeys by galleries and balustrades, which differ in their cross-sectional profile. The synagogue was built in wood and the interior of the main hall is decorated with polychromy. The synagogue in Volpa is one of the most outstanding works of Baroque wooden architecture. In 2015, it was faithfully reconstructed on the basis of inventory drawings in the town of Biłgoraj (Lubelskie Voivodeship). This reconstruction is mainly based on the book by Maria and Kazimierz Piechotka "Bramy Nieba. Wooden synagogues on the territory of the former Republic of Poland". (Translated from Polish to German to English)
https://doi.org/10.57807/i9racfox
This is a BIM model of an office created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/ix318xud
This is a BIM model of a Pavillion/Single fam house created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/etk5wy8w
This is a BIM model of a Educational/Single fam house created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/iglw61xl
This is a BIM model of a University created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/zfri3vte
This is a BIM model of an office building created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/crbc4gvk
This is a 3D scan (point cloud) of an installation created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/c1xd2qxs
This is a BIM model of a residential created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/po2ejeqa
This is a BIM model of a College created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/leimwghd
The model shows the Italian Hall of the city residence in Landshut.
https://doi.org/10.57807/pjidvnfe
There are three 3D scans (point cloud) of the The Royal Danish Academy of Fine Arts, Schools of Architecture, building 72 created in June, August and September 2015 in the context of the DuraArK-Project. Furthermore a BIM model has been reconstructed from the 3D scan (point cloud) of June 2015. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse. The The Royal Danish Academy of Fine Arts, Schools of Architecture was built in coherence with the original buildings of the Navy's naval dockyard, naval base, and the harbour magazines from 1766-72. Later Meldahls smithery from 1861. Refurbished into an Architecture School 1994-96. The protected buildings (magazines, smithery etc.) were restored and converted into classrooms, auditoriums, multi-room activities, exhibitions, special institutes, research, study offices, workshops and administration. The university building is located in the harbour on the Holmen island, on axis from the Royal Palace Amalienborg on the other side of the harbour. More recently neighbouring the new opera house.
Architect: Ferdinand Meldahl
Architectural Style: Nordic Classicism
Adress of building: Philip de Langes Allé 11, 1435 København K, Denmark
The three 3D scans can be accessed via TIB Portal:
Scan of June 2015 www.tib.eu/de/suchen/id/duraark:DURAARK35-1/The-Royal-Danish-Academy-of-Fine-ArtsSchools-of
Scan of August 2015 www.tib.eu/de/suchen/id/duraark:DURAARK36/The-Royal-Danish-Academy-of-Fine-ArtsSchools-of
Scan of September 2015 www.tib.eu/de/suchen/id/duraark:DURAARK37/The-Royal-Danish-Academy-of-Fine-ArtsSchools-of
https://doi.org/10.57807/a2njtror
This is a BIM model of an exhibit room created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.
https://doi.org/10.57807/zgeywkr0
This is a BIM model of a Single fam house created in the context of the DuraArK-Project. The project developed methods and tools for the Long-Term Preservation (LTP) of architectural knowledge, including approaches to: Enrich Building Information Models with "as built" information from scans, semantically enrich building models with additional data sets, preserve 3D models for future reuse.