Extensive and high-quality geographic data sources are important for any kind of
spatial analysis or application, especially in the field of urban data management. In the last
couple of years, Volunteered Geographic Information (VGI) has increasingly gained attractiveness not only to amateur users, but also to professionals in the geoinformation industry. Different VGI communities evolved and especially the OpenStreetMap (OSM) community became
very strong. OSM provides very detailed information about the landscape, the street network
and also more and more buildings are mapped. However, until now, this building mapping is
mainly related to the outer shape of the ground space of the building and there is hardly any information about the inner structure available. This paper presents an approach of extending the
OSM tagging schema to indoor environments. A 3D Building Ontology targeted to VGI communities is presented for describing different information aspects about buildings and their inner
structure. Based on this ontology, the OSM extension is developed and explained. A proof of
concept is given by applying the developed extension in mapping a use case building.
%0 Journal Article
%1 goetzextending
%A Goetz, M.
%A Zipf, A.
%D 2011
%K BIM opencontent openstreetmap
%T Extending OpenStreetMap to Indoor Environments: Bringing Volunteered Geographic Information to the Next Level
%U http://koenigstuhl.geog.uni-heidelberg.de/publications/2011/Goetz/Goetz-Zipf_2011_IndoorOSM.pdf
%X Extensive and high-quality geographic data sources are important for any kind of
spatial analysis or application, especially in the field of urban data management. In the last
couple of years, Volunteered Geographic Information (VGI) has increasingly gained attractiveness not only to amateur users, but also to professionals in the geoinformation industry. Different VGI communities evolved and especially the OpenStreetMap (OSM) community became
very strong. OSM provides very detailed information about the landscape, the street network
and also more and more buildings are mapped. However, until now, this building mapping is
mainly related to the outer shape of the ground space of the building and there is hardly any information about the inner structure available. This paper presents an approach of extending the
OSM tagging schema to indoor environments. A 3D Building Ontology targeted to VGI communities is presented for describing different information aspects about buildings and their inner
structure. Based on this ontology, the OSM extension is developed and explained. A proof of
concept is given by applying the developed extension in mapping a use case building.
@article{goetzextending,
abstract = { Extensive and high-quality geographic data sources are important for any kind of
spatial analysis or application, especially in the field of urban data management. In the last
couple of years, Volunteered Geographic Information (VGI) has increasingly gained attractiveness not only to amateur users, but also to professionals in the geoinformation industry. Different VGI communities evolved and especially the OpenStreetMap (OSM) community became
very strong. OSM provides very detailed information about the landscape, the street network
and also more and more buildings are mapped. However, until now, this building mapping is
mainly related to the outer shape of the ground space of the building and there is hardly any information about the inner structure available. This paper presents an approach of extending the
OSM tagging schema to indoor environments. A 3D Building Ontology targeted to VGI communities is presented for describing different information aspects about buildings and their inner
structure. Based on this ontology, the OSM extension is developed and explained. A proof of
concept is given by applying the developed extension in mapping a use case building. },
added-at = {2012-03-22T23:40:12.000+0100},
author = {Goetz, M. and Zipf, A.},
biburl = {https://www.bibsonomy.org/bibtex/28ac61aad4f512b8cb7fc767d4038c79a/yish},
interhash = {7ef82286b6a9666fc44ce2d8659ed399},
intrahash = {8ac61aad4f512b8cb7fc767d4038c79a},
keywords = {BIM opencontent openstreetmap},
timestamp = {2012-03-22T23:40:12.000+0100},
title = {Extending OpenStreetMap to Indoor Environments: Bringing Volunteered Geographic Information to the Next Level},
url = {http://koenigstuhl.geog.uni-heidelberg.de/publications/2011/Goetz/Goetz-Zipf_2011_IndoorOSM.pdf},
year = 2011
}