Combination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model

The rapid development of the construction world in Indonesia has led to an increase in supporting technology that is more effective and efficient. The Building Information Model (BIM) technology that begins with the creation of an as-built 3D model, this model describes the existing condition of the...

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Autores principales: Sawitri Subiyanto, Nurhadi Bashit, Naftalie Dinda Rianty, Aulia Darmaputri Savitri
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Publicado: Politeknik Negeri Batam 2021
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Acceso en línea:https://doaj.org/article/5223f0c64f7b470a8a3d752757df861c
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spelling oai:doaj.org-article:5223f0c64f7b470a8a3d752757df861c2021-11-04T14:20:15ZCombination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model2579-360810.30871/jagi.v5i2.3444https://doaj.org/article/5223f0c64f7b470a8a3d752757df861c2021-10-01T00:00:00Zhttps://jurnal.polibatam.ac.id/index.php/JAGI/article/view/3444https://doaj.org/toc/2579-3608The rapid development of the construction world in Indonesia has led to an increase in supporting technology that is more effective and efficient. The Building Information Model (BIM) technology that begins with the creation of an as-built 3D model, this model describes the existing condition of the building. The Terrestrial Laser Scanner (TLS) method can provide a point cloud with a decent point density, but there are still areas of the building that aren't covered, such as the roof. To be more complete and detailed, additional data is needed using an Unmanned Aerial Vehicle (UAV). The results of the combination of TLS and UAV complement each other so that the results of the point cloud can form more detailed buildings. BIM may be built by combining these two data sets, allowing for the three-dimensional depiction of assets in buildings. The registration results for TLS point cloud data have a fairly good value where the overlap value is 44.9% (minimum 30%), balance is 41.2% (minimum 20%), points < 6mm is 98.9% (minimum 90%). The measurement results using the UAV have an RMSE GCP value of 0.266m and an RMSE ICP of 0.455m. Merging the results of TLS and UAV measurements is done using 3DReshaper software with four align points. The final result of making the BIM model is obtained level of detail (LOD) 3 where room models such as columns, floors, stairs, and walls are well depicted, while asset models such as furniture are also depicted although they are still simple objects.Sawitri SubiyantoNurhadi BashitNaftalie Dinda RiantyAulia Darmaputri SavitriPoliteknik Negeri BatamarticleGeography. Anthropology. RecreationGGeologyQE1-996.5ENIDJournal of Applied Geospatial Information, Vol 5, Iss 2, Pp 520-525 (2021)
institution DOAJ
collection DOAJ
language EN
ID
topic Geography. Anthropology. Recreation
G
Geology
QE1-996.5
spellingShingle Geography. Anthropology. Recreation
G
Geology
QE1-996.5
Sawitri Subiyanto
Nurhadi Bashit
Naftalie Dinda Rianty
Aulia Darmaputri Savitri
Combination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model
description The rapid development of the construction world in Indonesia has led to an increase in supporting technology that is more effective and efficient. The Building Information Model (BIM) technology that begins with the creation of an as-built 3D model, this model describes the existing condition of the building. The Terrestrial Laser Scanner (TLS) method can provide a point cloud with a decent point density, but there are still areas of the building that aren't covered, such as the roof. To be more complete and detailed, additional data is needed using an Unmanned Aerial Vehicle (UAV). The results of the combination of TLS and UAV complement each other so that the results of the point cloud can form more detailed buildings. BIM may be built by combining these two data sets, allowing for the three-dimensional depiction of assets in buildings. The registration results for TLS point cloud data have a fairly good value where the overlap value is 44.9% (minimum 30%), balance is 41.2% (minimum 20%), points < 6mm is 98.9% (minimum 90%). The measurement results using the UAV have an RMSE GCP value of 0.266m and an RMSE ICP of 0.455m. Merging the results of TLS and UAV measurements is done using 3DReshaper software with four align points. The final result of making the BIM model is obtained level of detail (LOD) 3 where room models such as columns, floors, stairs, and walls are well depicted, while asset models such as furniture are also depicted although they are still simple objects.
format article
author Sawitri Subiyanto
Nurhadi Bashit
Naftalie Dinda Rianty
Aulia Darmaputri Savitri
author_facet Sawitri Subiyanto
Nurhadi Bashit
Naftalie Dinda Rianty
Aulia Darmaputri Savitri
author_sort Sawitri Subiyanto
title Combination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model
title_short Combination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model
title_full Combination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model
title_fullStr Combination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model
title_full_unstemmed Combination of Terrestrial Laser Scanner and Unmanned Aerial Vehicle Technology in The Manufacture of Building Information Model
title_sort combination of terrestrial laser scanner and unmanned aerial vehicle technology in the manufacture of building information model
publisher Politeknik Negeri Batam
publishDate 2021
url https://doaj.org/article/5223f0c64f7b470a8a3d752757df861c
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AT naftaliedindarianty combinationofterrestriallaserscannerandunmannedaerialvehicletechnologyinthemanufactureofbuildinginformationmodel
AT auliadarmaputrisavitri combinationofterrestriallaserscannerandunmannedaerialvehicletechnologyinthemanufactureofbuildinginformationmodel
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