TY - JOUR
T1 - Future Swedish 3D City Models
T2 - Specifications, Test Data, and Evaluation
AU - Uggla, Maria
AU - Olsson, Perola
AU - Abdi, Barzan
AU - Axelsson, Björn
AU - Calvert, Matthew
AU - Christensen, Ulrika
AU - Gardevärn, Daniel
AU - Hirsch, Gabriel
AU - Jeansson, Eric
AU - Kadric, Zuhret
AU - Lord, Jonas
AU - Loreman, Axel
AU - Persson, Andreas
AU - Setterby, Ola
AU - Sjöberger, Maria
AU - Stewart, Paul
AU - Rudenå, Andreas
AU - Ahlström, Andreas
AU - Bauner, Mikael
AU - Hartman, Kendall
AU - Pantazatou, Karolina
AU - Liu, Wenjing
AU - Fan, Hongchao
AU - Kong, Gefei
AU - Li, Hang
AU - Harrie, Lars
PY - 2023
Y1 - 2023
N2 - Three-dimensional city models are increasingly being used for analyses and simulations. To enable such applications, it is necessary to standardise semantically richer city models and, in some cases, to connect the models with external data sources. In this study, we describe the development of a new Swedish specification for 3D city models, denoted as 3CIM, which is a joint effort between the three largest cities in Sweden—Stockholm, Gothenburg, and Malmö. Technically, 3CIM is an extension of the OGC standard CityGML 2.0, implemented as an application domain extension (ADE). The ADE is semantically thin, mainly extending CityGML 2.0 to harmonise with national standards; in contrast, 3CIM is mainly based on linkages to external databases, registers, and operational systems for the semantic part. The current version, 3CIM 1.0, includes various themes, including Bridge, Building, Utility, City Furniture, Transportation, Tunnel, Vegetation, and Water. Three test areas were created with 3CIM data, one in each city. These data were evaluated in several use-cases, including visualisation as well as daylight, noise, and flooding simulations. The conclusion from these use-cases is that the 3CIM data, together with the linked external data sources, allow for the inclusion of the necessary information for the visualisation and simulations, but extract, transform, and load (ETL) processes are required to tailor the input data. The next step is to implement 3CIM within the three cities, which will entail several challenges, as discussed at the end of the paper.
AB - Three-dimensional city models are increasingly being used for analyses and simulations. To enable such applications, it is necessary to standardise semantically richer city models and, in some cases, to connect the models with external data sources. In this study, we describe the development of a new Swedish specification for 3D city models, denoted as 3CIM, which is a joint effort between the three largest cities in Sweden—Stockholm, Gothenburg, and Malmö. Technically, 3CIM is an extension of the OGC standard CityGML 2.0, implemented as an application domain extension (ADE). The ADE is semantically thin, mainly extending CityGML 2.0 to harmonise with national standards; in contrast, 3CIM is mainly based on linkages to external databases, registers, and operational systems for the semantic part. The current version, 3CIM 1.0, includes various themes, including Bridge, Building, Utility, City Furniture, Transportation, Tunnel, Vegetation, and Water. Three test areas were created with 3CIM data, one in each city. These data were evaluated in several use-cases, including visualisation as well as daylight, noise, and flooding simulations. The conclusion from these use-cases is that the 3CIM data, together with the linked external data sources, allow for the inclusion of the necessary information for the visualisation and simulations, but extract, transform, and load (ETL) processes are required to tailor the input data. The next step is to implement 3CIM within the three cities, which will entail several challenges, as discussed at the end of the paper.
KW - 3D city models
KW - CityGML
KW - standardisation
KW - simulations
KW - ADE
U2 - 10.3390/ijgi12020047
DO - 10.3390/ijgi12020047
M3 - Article
SN - 2220-9964
VL - 12
JO - ISPRS International Journal of Geo-Information
JF - ISPRS International Journal of Geo-Information
IS - 2
M1 - 47
ER -