3DCityDB - a 3D geodatabase solution for the management, analysis, and visualization of semantic 3D city models based on CityGML

Yao, Zhihang; Nagel, Claus; Kunde, Felix; Hudra, György; Willkomm, Philipp; Donaubauer, Andreas; Adolphi, Thomas; Kolbe, Thomas H.

doi:10.1186/s40965-018-0046-7

Cited by 148 publications

(128 citation statements)

References 23 publications

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“…However, in order to import SketchUp models into PostGIS, a CityGML file must be created from the SketchUp model and a software called 3DCityDB is required to transfer CityGML into PostgreSQL/PostGIS. 3DCityDB is a free Open Source software suite consisting of a database schema allowing the import, manage, analyse, visualise, and export of virtual 3D city models according to the CityGML standard (Yao et al, 2018). 3DCityDB allows the CityGML data model to be mapped onto the relational schema of spatially-enabled database management system (DBMS) such as Oracle Spatial (since version 10g) and PostgreSQL/PostGIS…”

Section: Hbim To Postgresql/postgismentioning

confidence: 99%

A Review of 3d Gis for Use in Creating Virtual Historic Dublin

Chenaux¹,

Murphy

Pavía

et al. 2019

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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carleton.ca, Stephen Fai cims@bell.net 4 Office of Public Works, John.Cahill@OPW.ie, shane.lenihan@opw.ie 5 Discovery Programme, anthony@discoveryprogramme.ie Commission II ABSTRACT: This paper illustrates how BIM integration with GIS is approached as part of the workflow in creating Virtual Historic Dublin. A design for a WEB based interactive 3D model of historic buildings and centres in Dublin City (Virtual Historic Dublin City) paralleling smart city initiates is now under construction and led by the National Monuments at the Office of Public Works in Ireland.The aim is to facilitate the conservation and maintenance of historic infrastructure and fabric and the dissemination of knowledge for education and cultural tourism using an extensive Historic Building Information Model. Remote sensing data is now processed with greater ease to create 3D intelligent models in Historic BIM. While the use of remote sensing, HBIM and game engine platforms are the main applications used at present, 3D GIS has potential to form part of the workflow for developing the Virtual Historic City. 2D GIS is now being replaced by 3D spatial data allowing more complex analysis to be carried out, 3D GIS can define and depict buildings, urban rural centres in relation to their geometry topological, semantic and visualisation properties. The addition of semantic attributes allows complex analysis and 3D spatial queries for modelling city and urban elements. This analysis includes fabric and structural elements of buildings, relief, vegetation, transportation, water bodies, city furniture and land use.

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Section: Hbim To Postgresql/postgismentioning

confidence: 99%

A Review of 3d Gis for Use in Creating Virtual Historic Dublin

Chenaux¹,

Murphy

Pavía

et al. 2019

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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“…This effort is presented in [52,53] with the first stable version presented in 2018 at the 10th meeting in of the OGC CityGML working group in Delft [54]. Currently the extension contains one core module and four topic modules, Building Physics, Energy Systems, Material and Construction, and Occupant Behavior, which are all described in detail in [55].…”

Section: Semantic City Models and Data Infrastructurementioning

confidence: 99%

Modeling, Monitoring, and Validating Green Roof and Green Facade Solutions with Semantic City Models Using Low Cost Sensors and Open Software Infrastructures

Nichersu

Wendel

2019

Urban Science

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The usage of greenery systems as nature-based solutions to assist in urban cooling in summer time as well as urban warming in wintertime is considered a scientific validated approach in urban planning. The objective of this research is the investigation and quantification of the role of green roofs and green facade solutions concerning thermal behavior in buildings energy savings by using standardized semantic city models that allow the quantification of such measures on district and city scales. The implemented model uses standardized geospatial data based on the CityGML format, a semantic city model standard, for analysis and data storage. For storage of the thermal properties of the buildings, the behavior of its occupants as well as the sensor measurements the Energy ADE of the CityGML standard was used. A green roof/façades model was implemented to simulate the heat transfer in a building based on the heat balance principle of foliage, soil, and structural layers. This model allows analyzing the thermal influence of plant and substrate layers on the heat gains from incoming solar radiation into buildings and the heat losses. This implementation was validated for cooling solutions using monitoring data from real-time experiments during summer measurements at three locations in Germany. Results from this experiment correspond well with the findings of other relevant studies. A sensitivity analysis was conducted to test the impacts of climate, substrate and plants on the greenery layer performance.2 of 20 in urban areas. These applications for buildings are considered as a solution to integrate greenery in urban development that increases not only the energy efficiency of buildings but also shows positive effects on ecology and the environment [5]. At the same time reducing heat-induced stress from UHI on humans and animals, that influences their behavior, health, and well-being. The benefits that these nature-based applications have on urban systems are a presented in numerous research studies, and range from UHI mitigation [6-8], energy and noise reduction [9-11], filtering pollutants [12] to storm water retention [13] and urban aesthetics [7]. In recent years, these systems are receiving more and more attention and are being implemented by urban planners and architects and over 800 publications alone in Germany on the topic of green façades have been published since 2006 [7].This research focuses on the modelling and monitoring of the effects of green roof and green façade systems. These two applications of nature-based solutions differ in their application on urban structures where green roofs are described as a Green Horizontal System (GHS) placed on top of the building roof surface. These installations serve, beside aesthetical aspects such as providing a green view for residents, energy consumption reduction, as well as multiple environmental benefits. The thermal effects of green roofs, acting as an additional building envelop layer, on energy consumption of buildings have been proven in the building se...

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“…Although storing such information as shape files for two-dimensional models may be considered appropriate, such large data providing 3D information require an efficient method of storage and processing [3]. Especially storage might be a major issue for larger study areas [7]. Furthermore, as the data are going to be utilized for other purposes and applications, a proper geometric and semantic structuring of the data for better accuracy is essential [1].…”

Section: Introductionmentioning

confidence: 99%

“…As OSM data contain a hierarchical description of point, line and polygon features [26], which are the common types of features used in GIS, it is a convenient data source to utilize. For hierarchical description of city models, CityGML is an accepted standard to represent large 3D urban environments and therefore it has been used in different approaches, such as modeling cities and landscapes [27], web representation of large cities [3], visualization and analysis of cities [7] and certain simulations based on CityGML data [28]. As CityGML format contains a structure to define highly detailed cities, it would be useful if the study area is well-investigated.…”

Section: Introductionmentioning

confidence: 99%

City Maker: Reconstruction of Cities from OpenStreetMap Data for Environmental Visualization and Simulations

Hadimlioglu

King

2019

IJGI

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Recent innovations in 3D processing and availability of geospatial data have contributed largely to more comprehensive solutions to data visualization. As various data formats are utilized to describe the data, a combination of layers from different sources allow us to represent 3D urban areas, contributing to ideas of emergency management and smart cities. This work focuses on 3D urban environment reconstruction using crowdsourced OpenStreetMap data. Once the data are extracted, the visualization pipeline draws features using coloring for added context. Moreover, by structuring the layers and entities through the addition of simulation parameters, the generated environment is made simulation ready for further use. Results show that urban areas can be properly visualized in 3D using OpenStreetMap data given data availability. The simulation-ready environment was tested using hypothetical flooding scenarios, which demonstrated that the added parameters can be utilized in environmental simulations. Furthermore, an efficient restructuring of data was implemented for viewing the city information once the data are parsed.

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3DCityDB - a 3D geodatabase solution for the management, analysis, and visualization of semantic 3D city models based on CityGML

Cited by 148 publications

References 23 publications

A Review of 3d Gis for Use in Creating Virtual Historic Dublin

A Review of 3d Gis for Use in Creating Virtual Historic Dublin

Modeling, Monitoring, and Validating Green Roof and Green Facade Solutions with Semantic City Models Using Low Cost Sensors and Open Software Infrastructures

City Maker: Reconstruction of Cities from OpenStreetMap Data for Environmental Visualization and Simulations

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