Automation of the digital information workflow in the geotechnical design process
The geological and geotechnical data are currently extensively digitized on a wide scale. One of the reasons for this is the facilitation of data exchange using a digital version of geoengineering documentation as well as the lack of sufficient information on soil and ground water conditions of th...
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| Format: | Article |
| Language: | English |
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Warsaw University of Life Sciences Press
2020-09-01
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| Series: | Acta Scientiarum Polonorum. Architectura |
| Subjects: | |
| Online Access: | http://www.architectura.actapol.net/tom19/zeszyt2/19_2_31.pdf |
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| _version_ | 1850250442369400832 |
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| author | Grzegorz Kacprzak Seweryn Bodus |
| author_facet | Grzegorz Kacprzak Seweryn Bodus |
| author_sort | Grzegorz Kacprzak |
| collection | DOAJ |
| description | The geological and geotechnical data are currently extensively digitized on a wide scale. One of the reasons
for this is the facilitation of data exchange using a digital version of geoengineering documentation as well
as the lack of sufficient information on soil and ground water conditions of the given structure in the BIM
models being developed. The article describes various possibilities of using digital information about the
ground obtained from the field investigation in macro and micro scale and laboratory tests, recorded in one of
the digital formats – AGS. The statistical analysis of research results and its interpretation, geological cross-
-sections, generation of soil model described by mathematical relations (Mohr-Coulomb model, hardening
soil) to be included in a FEM 3D numerical model are just a few possibilities which are made available to
us thanks to the geotechnical platforms that are currently created by the design offices. The second part of
the work describes an example showing the use of tools in the automation of the geotechnical design of the
interaction between a structure and the ground using the parametric modelling technology. The paper presents
an example of the application of the ready-made BIM models in geotechnical tools using the Rhino-Grasshopper
environment. Block diagrams presenting the information flow between the BIM modelling programs
(Revit, ArchiCAD), construction calculations (ARSA), and geotechnical analyses (Plaxis, ZSoil) show wide
possibilities of applying these tools in accordance with the concept of OpenBIM. |
| format | Article |
| id | doaj-art-89a2e0de6e3f4aa8ba89190b449dbf30 |
| institution | OA Journals |
| issn | 1644-0633 2544-1760 |
| language | English |
| publishDate | 2020-09-01 |
| publisher | Warsaw University of Life Sciences Press |
| record_format | Article |
| series | Acta Scientiarum Polonorum. Architectura |
| spelling | doaj-art-89a2e0de6e3f4aa8ba89190b449dbf302025-08-20T01:58:12ZengWarsaw University of Life Sciences PressActa Scientiarum Polonorum. Architectura1644-06332544-17602020-09-01192313910.22630/ASPA.2020.19.2.15Automation of the digital information workflow in the geotechnical design processGrzegorz Kacprzak0https://orcid.org/0000-0003-0731-5761Seweryn Bodus1https://orcid.org/0000-0002-7813-1073Faculty of Civil Engineering, Warsaw University of Technology; Geotechnical and Foundational Design Team, Warbud S.A.Faculty of Civil Engineering, Warsaw University of Technology; Geotechnical and Foundational Design Team, Warbud S.A.The geological and geotechnical data are currently extensively digitized on a wide scale. One of the reasons for this is the facilitation of data exchange using a digital version of geoengineering documentation as well as the lack of sufficient information on soil and ground water conditions of the given structure in the BIM models being developed. The article describes various possibilities of using digital information about the ground obtained from the field investigation in macro and micro scale and laboratory tests, recorded in one of the digital formats – AGS. The statistical analysis of research results and its interpretation, geological cross- -sections, generation of soil model described by mathematical relations (Mohr-Coulomb model, hardening soil) to be included in a FEM 3D numerical model are just a few possibilities which are made available to us thanks to the geotechnical platforms that are currently created by the design offices. The second part of the work describes an example showing the use of tools in the automation of the geotechnical design of the interaction between a structure and the ground using the parametric modelling technology. The paper presents an example of the application of the ready-made BIM models in geotechnical tools using the Rhino-Grasshopper environment. Block diagrams presenting the information flow between the BIM modelling programs (Revit, ArchiCAD), construction calculations (ARSA), and geotechnical analyses (Plaxis, ZSoil) show wide possibilities of applying these tools in accordance with the concept of OpenBIM.http://www.architectura.actapol.net/tom19/zeszyt2/19_2_31.pdfdigitalizationopenbimagssoil structure interactionparametric modellingautomation |
| spellingShingle | Grzegorz Kacprzak Seweryn Bodus Automation of the digital information workflow in the geotechnical design process Acta Scientiarum Polonorum. Architectura digitalization openbim ags soil structure interaction parametric modelling automation |
| title | Automation of the digital information workflow in the geotechnical design process |
| title_full | Automation of the digital information workflow in the geotechnical design process |
| title_fullStr | Automation of the digital information workflow in the geotechnical design process |
| title_full_unstemmed | Automation of the digital information workflow in the geotechnical design process |
| title_short | Automation of the digital information workflow in the geotechnical design process |
| title_sort | automation of the digital information workflow in the geotechnical design process |
| topic | digitalization openbim ags soil structure interaction parametric modelling automation |
| url | http://www.architectura.actapol.net/tom19/zeszyt2/19_2_31.pdf |
| work_keys_str_mv | AT grzegorzkacprzak automationofthedigitalinformationworkflowinthegeotechnicaldesignprocess AT sewerynbodus automationofthedigitalinformationworkflowinthegeotechnicaldesignprocess |