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Evaluating the geometric aspects of integrating BIM data into city models
KTH, School of Architecture and the Built Environment (ABE), Real Estate and Construction Management, Geodesy and Satellite Positioning.ORCID iD: 0000-0003-2820-5801
Department of Physical Geography and Ecosystem Science, Lund University, Lund, Sweden.
Department of Physical Geography and Ecosystem Science, Lund University, Lund, Sweden ; Geodata division, Lantmäteriet, Gävle, Sweden.
Department of Physical Geography and Ecosystem Science, Lund University, Lund, Sweden.ORCID iD: 0000-0003-3252-1495
2019 (English)In: Journal of Spatial Science, ISSN 1449-8596Article in journal (Refereed) Published
Abstract [en]

Airborne Laser Scanning (ALS) is used to acquire three-dimensional(3D) city model data over large areas. However, because of the longALS update cycle, building information models (BIM) could be utilizedto maintain city models. In this study, we designed, implemented, andevaluated a methodology to formalize the integration of BIM data intocity models. CityGML models were created from BIM data and ALS/footprint data based on common modelling guidelines. Both CityGMLbuilding models are modelled in a similar way and the relative differencesbetween the models are on the order of decimetres.

Place, publisher, year, edition, pages
UK: Taylor & Francis Group, 2019.
Keywords [en]
BIM, CityGML, laser scanning, geometric quality, city models
National Category
Geosciences, Multidisciplinary
Research subject
Geodesy and Geoinformatics, Geodesy; Geodesy and Geoinformatics, Geoinformatics
Identifiers
URN: urn:nbn:se:kth:diva-262832DOI: 10.1080/14498596.2019.1636722ISI: 000477510900001OAI: oai:DiVA.org:kth-262832DiVA, id: diva2:1362791
Projects
Data Quality and Data Responsibility within the Built Environment
Note

QC 20191022

Available from: 2019-10-21 Created: 2019-10-21 Last updated: 2019-10-22Bibliographically approved
In thesis
1. The Integration of 3D Geodata and BIM Data in 3D City Models and 3D Cadastre
Open this publication in new window or tab >>The Integration of 3D Geodata and BIM Data in 3D City Models and 3D Cadastre
2019 (English)Licentiate thesis, comprehensive summary (Other academic)
Abstract [en]

The initial geographic information system (GIS) and building information modelling (BIM) are designed and developed independently in order to serve different purposes and use. Within the prolific increase and growing maturity of three-dimensional (3D) technology, both 3D geodata and BIM data can specify semantic data and model 3D buildings that are prominent for the 3D city models and 3D cadastre. 3D geodata can be collected from geodetic surveying methods such as total station, laser scanning and photogrammetry and generate 3D building models by CityGML format for macro analysis on city scale. BIM data has significant advantages in planning, designing, modelling and managing building information, which contains rich details of building elements. Additionally, BIM helps and supports to exchange and share complex information through life-cycle project. Because there are some overlaps between them, the integration of BIM and 3D city models is mutually beneficial for representing comprehensive 3D building models.

This thesis is a summary and compilation of two papers, where one is a review paper published in Journal of Spatial Science, and the other is a research paper currently under review in ISPRS International Journal of Geo-Information. The first paper designed and implemented a methodology to formalize the integration of BIM data into city models (CityGML models) that were generated from BIM data and from ALS/footprint data based on the proposed common modelling guidelines. The geometric results of the CityGML models were compared and evaluated visually and quantitatively. The second paper proposed a general framework for sharing and integrating cadastral information with BIM and 3D GIS together with general requirements. Based on the requirements and framework, the case study focused on how to represent and visualize 3D cadastral boundaries legally and technically by integrating BIM at building level and CityGML at city level. Both the Industry Foundation Classes (IFC) model and the CityGML model were connected to Land Administration Domain Model (LADM) at the conceptual level using Unified Modeling Language (UML) models and on database level.

The findings of the first paper include investigation of BIM data as a qualified source on the geometric aspects in order to satisfy the need for a more rapid update process of 3D city models, and the second paper shows that the proposed framework and requirements perform well for generating 3D cadastral model in the real-world case study.

Abstract [sv]

Det ursprungliga geografiska informationssystemet (GIS) och byggnadsinformationsmodellering (BIM) är utformade och utvecklade oberoende av varandra för att tjäna olika syften och användning. Inom 3D-teknik kan både 3D geodata och BIM-data specificera semantiska data och modellera 3D-byggnader som är framträdande för 3D stadsmodeller och 3D fastighetsregister. 3D-geodata kan samlas in från geodetiska mätningsmetoder som totalstation, laserskanning och fotogrammetri och de kan generera 3D modeller av byggnader i CityGML för makroanalys av städer. BIM-data har betydande fördelar i planering, design, modellering och hantering av byggnadsinformation eftersom det innehåller detaljerade uppgifter om byggelement. Dessutom gör BIM det möjligt att förmedla och analysera komplex information över byggnaders livscykel. Integrationen av BIM- och 3D-stadsmodeller är viktigt för att kunna analysera både byggnader och stad, exempelvis i stadsplanering, byggnadskonstruktion och hållbarhetsanalys.Denna avhandling är en sammanfattning och sammanställning av två artiklar, varav den ena är publicerad i Journal of Spatial Science, och den andra är under granskning i ISPRS International Journal of Geo-Information. Den första artikeln utformade och implementerade en metod för att formalisera integrationen av BIM-data i stadsmodeller (CityGML-modeller) som genererades från BIM-data och flygburen laserskanning/fotavtryck baserat på gemensamma modelleringsriktlinjerna. De geometriska resultaten av CityGML modellerna jämfördes och utvärderades visuellt och kvantitativt. Den andra artikeln föreslog en allmän ram för att dela och integrera fastighets information med BIM och 3D GIS tillsammans med allmänna krav. Baserat på kraven och ramverket så visade en fallstudie på hur man kan representera och visualisera 3D fastighetsgränser juridiskt och tekniskt genom att integrera BIM på byggnadsnivå och CityGML på stadsnivå. Både IFC-modellen och CityGML-modellen kopplades till LADM på konceptuell nivå med hjälp av UML-modeller och på databasnivå.Slutsatserna från den första artikeln inkluderar undersökning av BIM data som en kvalificerad källa på de geometriska aspekterna för att uppfylla behovet av en snabbare uppdateringsprocess av 3D-stadsmodeller, och den andra uppsatsen visar att det föreslagna ramverket och kraven presterar väl för att generera 3D fastighets modeller i den verkliga världen.

Place, publisher, year, edition, pages
Stockholm: KTH Royal Institute of Technology, 2019. p. 37
Series
TRITA-ABE-DLT ; 1940
Keywords
3D geodata, BIM, city models, 3D cadastre, geometric quality, CityGML, LADM, laser scanning
National Category
Geosciences, Multidisciplinary Building Technologies
Research subject
Geodesy and Geoinformatics; Geodesy and Geoinformatics, Geodesy
Identifiers
urn:nbn:se:kth:diva-262845 (URN)978-91-7873-341-5 (ISBN)
Presentation
2019-11-13, Ocean and Pacific, Teknikringen 10B, Stockholm, 14:00 (English)
Opponent
Supervisors
Note

QC 20191023

Available from: 2019-10-23 Created: 2019-10-21 Last updated: 2019-10-23Bibliographically approved

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