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abstract = {Overview about IFC releases, including current IFC release, background information about previous IFC releases, and preview of future IFC releases.},
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timestamp = {2017-09-04T23:38:45Z},
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journaltitle = {buildingSMART-Tech.org},
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type = {Technical Documentation},
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author = {{buildingSMART International}},
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urldate = {2017-09-04},
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date = {2017},
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groups = {Institutions and standards,Institutions and standards}
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}
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@misc{sun_microsystems_common_2005,
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title = {Common {{Development}} and {{Distribution License}} 1.0},
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url = {https://opensource.org/licenses/CDDL-1.0},
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shorttitle = {{{CDDL}}-1.0},
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timestamp = {2017-09-08T15:22:05Z},
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publisher = {{Open Source Initiative}},
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author = {{Sun Microsystems}},
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urldate = {2017-09-04},
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date = {2005-01},
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groups = {Xbim,Xbim}
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@legislation{ModelSupportGroup,
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timestamp = {2017-06-01T08:31:23Z},
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title = {Model {{Support Group}} of {{buildingSMART International}}},
groups = {COBie,Institutions and standards,COBie,Institutions and standards}
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groups = {COBie,Standards}
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}
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@misc{ISOISO10303112004Industrial2013,
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timestamp = {2017-09-04T16:23:07Z},
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title = {{{ISO}}-10303-11:2004 {{Industrial}} Automation Systems and Integration -- {{Product}} Data Representation and Exchange -- {{Part}} 11: {{Description}} Methods: {{The EXPRESS}} Language Reference Manual},
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url = {https://www.iso.org/standard/38047.html},
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shorttitle = {{{EXPRESS}} Data Modeling Language},
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abstract = {ISO 10303 specifies a language by which aspects of product data can be defined. The language is called EXPRESS. ISO 10303-11:2004 also specifies a graphical representation for a subset of the constructs in the EXPRESS language. This graphical representation is called EXPRESS-G. EXPRESS is a data specification language as defined in ISO 10303-1. It consists of language elements that allow an unambiguous data definition and specification of constraints on the data defined.
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The following are within the scope of ISO 10303-11:2004:
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data types;
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constraints on instances of the data types.
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The following are outside the scope of this part of ISO 10303:
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definition of database formats;
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definition of file formats;
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definition of transfer formats;
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process control;
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information processing;
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exception handling.
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EXPRESS is not a programming language.},
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publisher = {{International Organization for Standardization}},
abstract = {Overview about IFC releases, including current IFC release, background information about previous IFC releases, and preview of future IFC releases.},
abstract = {The xBIM Toolkit (eXtensible Building Information Modelling) is a .NET open-source software development BIM toolkit that supports the BuildingSmart Data Model (aka the Industry Foundation Classes IFC).},
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journaltitle = {Xbim Toolkit Documentation},
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author = {{xBimTeam}},
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urldate = {2017-09-04},
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date = {2015-04},
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groups = {Xbim,Xbim}
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}
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@article{thomson_automatic_2015,
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title = {Automatic Geometry Generation from Point Clouds for {{BIM}}},
abstract = {The need for better 3D documentation of the built environment has come to the fore in recent years, led primarily by city modelling at the large scale and Building Information Modelling (BIM) at the smaller scale. Automation is seen as desirable as it removes the time-consuming and therefore costly amount of human intervention in the process of model generation. BIM is the focus of this paper as not only is there a commercial need, as will be shown by the number of commercial solutions, but also wide research interest due to the aspiration of automated 3D models from both Geomatics and Computer Science communities. The aim is to go beyond the current labour-intensive tracing of the point cloud to an automated process that produces geometry that is both open and more verifiable. This work investigates what can be achieved today with automation through both literature review and by proposing a novel point cloud processing process. We present an automated workflow for the generation of BIM data from 3D point clouds. We also present quality indicators for reconstructed geometry elements and a framework in which to assess the quality of the reconstructed geometry against a reference.},
abstract = {Unlike traditional modelling, Building Information Models (BIMs) are a developing standard which has the capacity to support various value add opportunities like utility and environmental simulations. We will demonstrate a system that utilises BIMs to generate an edge and node graph. This graph will utilise knowledge from the physical security domain to highlight weaknesses in a facilities design. We intend for this system to aid designers from an early stage, allowing for a more accessible application of security knowledge.},
title = {Classification of Detection States in Construction Progress Monitoring},
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isbn = {978-1-315-38689-8},
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eventtitle = {11th European Conference on Product \& Process Modeling},
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timestamp = {2017-09-04T23:31:57Z},
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booktitle = {{{eWork}} and {{eBusiness}} in {{Architecture}}, {{Engineering}} and {{Construction}}: {{ECPPM}} 2016},
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publisher = {{CRC Press}},
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author = {Braun, A. and Borrmann, A. and Tuttas, S. and Stilla, U.},
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date = {2017-03-27},
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pages = {473},
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file = {[PDF] tum.de:C\:\\Users\\sgmk2\\AppData\\Roaming\\Zotero\\Zotero\\Profiles\\wexjcf88.default\\zotero\\storage\\VZBPGC5K\\Braun et al. - 2017 - Classification of detection states in construction.pdf:application/pdf;Snapshot:C\:\\Users\\sgmk2\\AppData\\Roaming\\Zotero\\Zotero\\Profiles\\wexjcf88.default\\zotero\\storage\\7FKB2T72\\books.html:text/html},
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groups = {Referencing,Referencing,Referencing}
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}
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@article{cerny_gis_2014,
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@article{CernyGISanalyzyprostredi2014,
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timestamp = {2017-09-04T21:51:28Z},
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title = {{{GIS}} Analỳzy v Prostředí Informačních Modelŭ Staveb},
abstract = {This report presents the results of a feasibility study that examines the possibility of a
@@ -174,35 +155,97 @@ @report{roupe_virtuell_2014
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constructing and planning the production with an virtual build before enforcing it in
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real production. VPP utilizes 3D visualization (interactive visualization / virtual
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reality) and BIM model during this process.},
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timestamp = {2017-09-04T23:44:32Z},
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institution = {{Chalmers University of Technology}},
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author = {Roupé, Mattias and Viklund Tallgren, Mikael and Johansson, Mikael and Andersson, Roger},
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date = {2014},
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file = {[PDF] chalmers.se:C\:\\Users\\sgmk2\\AppData\\Roaming\\Zotero\\Zotero\\Profiles\\wexjcf88.default\\zotero\\storage\\BINDK9X5\\Roupé et al. - 2014 - Virtuell produktionsplanering med BIM och visualis.pdf:application/pdf;Snapshot:C\:\\Users\\sgmk2\\AppData\\Roaming\\Zotero\\Zotero\\Profiles\\wexjcf88.default\\zotero\\storage\\8GXWM2BV\\205896-virtuell-produktionsplanering-med-bim-och-visualisering.html:text/html},
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groups = {Referencing,Referencing,Referencing}
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groups = {Referencing}
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}
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@article{ThomsonAutomaticgeometrygeneration2015,
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timestamp = {2017-09-04T23:36:37Z},
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title = {Automatic Geometry Generation from Point Clouds for {{BIM}}},
abstract = {The need for better 3D documentation of the built environment has come to the fore in recent years, led primarily by city modelling at the large scale and Building Information Modelling (BIM) at the smaller scale. Automation is seen as desirable as it removes the time-consuming and therefore costly amount of human intervention in the process of model generation. BIM is the focus of this paper as not only is there a commercial need, as will be shown by the number of commercial solutions, but also wide research interest due to the aspiration of automated 3D models from both Geomatics and Computer Science communities. The aim is to go beyond the current labour-intensive tracing of the point cloud to an automated process that produces geometry that is both open and more verifiable. This work investigates what can be achieved today with automation through both literature review and by proposing a novel point cloud processing process. We present an automated workflow for the generation of BIM data from 3D point clouds. We also present quality indicators for reconstructed geometry elements and a framework in which to assess the quality of the reconstructed geometry against a reference.},
abstract = {The xBIM Toolkit (eXtensible Building Information Modelling) is a .NET open-source software development BIM toolkit that supports the BuildingSmart Data Model (aka the Industry Foundation Classes IFC).},
title = {Classification of Detection States in Construction Progress Monitoring},
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isbn = {978-1-315-38689-8},
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eventtitle = {11th {{European Conference}} on {{Product}} \& {{Process Modeling}}},
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booktitle = {{{eWork}} and {{eBusiness}} in {{Architecture}}, {{Engineering}} and {{Construction}}: {{ECPPM}} 2016},
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publisher = {{CRC Press}},
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author = {Braun, A. and Borrmann, A. and Tuttas, S. and Stilla, U.},
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date = {2017-03-27},
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pages = {473},
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file = {[PDF] tum.de:C\:\\Users\\sgmk2\\Zotero\\storage\\VZBPGC5K\\Braun et al. - 2017 - Classification of detection states in construction.pdf:application/pdf;Snapshot:C\:\\Users\\sgmk2\\Zotero\\storage\\7FKB2T72\\books.html:text/html},
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groups = {Referencing}
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}
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@online{InnovateUKDECCMRDigitalEngineering2015,
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timestamp = {2017-09-04T22:39:04Z},
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title = {{{DECC}}-{{MR Digital Engineering}} for {{Customised Compliance}} in {{Maintenance Regimes}}},
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