INTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C)

Modeling in 3D cadastre can be divided into Full 3D Cadastre, Hybrid Cadastre, and 3D Tags. In this final study, we will build a full 3D cadastral to make it happen not only with one data source but can also retrieve other data using High Definition Surveying which has good geometric accuracy, obtai...

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Main Author: Rahmah Falihah, Syahna
Format: Final Project
Language:Indonesia
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Online Access:https://digilib.itb.ac.id/gdl/view/65346
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:65346
spelling id-itb.:653462022-06-22T13:11:15ZINTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C) Rahmah Falihah, Syahna Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Final Project High Definition Surveying, Terrestrial Laser Scanner, 3D modeling, statistical test, 3D cadastre, point cloud INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/65346 Modeling in 3D cadastre can be divided into Full 3D Cadastre, Hybrid Cadastre, and 3D Tags. In this final study, we will build a full 3D cadastral to make it happen not only with one data source but can also retrieve other data using High Definition Surveying which has good geometric accuracy, obtained as-built drawing data, and parametric modeling which makes modeling easier if there are any rooms of similar dimensions. This study aims to integrate modeling for the purposes of providing 3D cadastral data from various methods that will be used. In addition, an analysis of the geometric accuracy of 3D cadastral modeling was also carried out to see the quality of the data obtained. In this study, the measurement of the basic frame points was carried out using the polygon closure method, scanning the interior of the building using the High Definition Surveying method, and measuring the distance using a distometer as data validation. The data generated from High Definition Surveying measurements is a point cloud with data processing stages, namely frame points for georeferencing, filtering, registration, to three-dimensional modeling. In processing the registration, a combination of methods is carried out, namely traverse and cloud-to-cloud. Furthermore, a three-dimensional model is created by combining three methods, namely, direct modeling for modeling from the results of TLS scan data. Then based on rooms that cannot be scanned, modeling is done by parametric and 2D to 3D modeling where the dimension data parameters are from as-built drawings. The quality of the results of processing point cloud data generated from the registration RMSE value. Meanwhile, the quality of the 3D modeling results are seen from the value of the difference between the dimensions of the 3D model and the distometer measurement. Observational data from High Definition Surveying and as-built drawing data that have been previously validated can be used to integrate 3D models in the Engineering Laboratory Building (Labtek) IX-C with RMSE registration results are between 0,55 – 0,145 mm and the RMSE of 3D model validation result is 5,83 mm. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
spellingShingle Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Rahmah Falihah, Syahna
INTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C)
description Modeling in 3D cadastre can be divided into Full 3D Cadastre, Hybrid Cadastre, and 3D Tags. In this final study, we will build a full 3D cadastral to make it happen not only with one data source but can also retrieve other data using High Definition Surveying which has good geometric accuracy, obtained as-built drawing data, and parametric modeling which makes modeling easier if there are any rooms of similar dimensions. This study aims to integrate modeling for the purposes of providing 3D cadastral data from various methods that will be used. In addition, an analysis of the geometric accuracy of 3D cadastral modeling was also carried out to see the quality of the data obtained. In this study, the measurement of the basic frame points was carried out using the polygon closure method, scanning the interior of the building using the High Definition Surveying method, and measuring the distance using a distometer as data validation. The data generated from High Definition Surveying measurements is a point cloud with data processing stages, namely frame points for georeferencing, filtering, registration, to three-dimensional modeling. In processing the registration, a combination of methods is carried out, namely traverse and cloud-to-cloud. Furthermore, a three-dimensional model is created by combining three methods, namely, direct modeling for modeling from the results of TLS scan data. Then based on rooms that cannot be scanned, modeling is done by parametric and 2D to 3D modeling where the dimension data parameters are from as-built drawings. The quality of the results of processing point cloud data generated from the registration RMSE value. Meanwhile, the quality of the 3D modeling results are seen from the value of the difference between the dimensions of the 3D model and the distometer measurement. Observational data from High Definition Surveying and as-built drawing data that have been previously validated can be used to integrate 3D models in the Engineering Laboratory Building (Labtek) IX-C with RMSE registration results are between 0,55 – 0,145 mm and the RMSE of 3D model validation result is 5,83 mm.
format Final Project
author Rahmah Falihah, Syahna
author_facet Rahmah Falihah, Syahna
author_sort Rahmah Falihah, Syahna
title INTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C)
title_short INTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C)
title_full INTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C)
title_fullStr INTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C)
title_full_unstemmed INTEGRASI MODEL 3D METODE HIGH DEFINITION SURVEYING, PEMODELAN PARAMETRIK, DAN PENGOLAHAN 2D MENJADI 3D UNTUK PENYEDIAAN DATA GEOMETRI KADASTER 3D (STUDI KASUS: GEDUNG LABORATORIUM TEKNIK IX-C)
title_sort integrasi model 3d metode high definition surveying, pemodelan parametrik, dan pengolahan 2d menjadi 3d untuk penyediaan data geometri kadaster 3d (studi kasus: gedung laboratorium teknik ix-c)
url https://digilib.itb.ac.id/gdl/view/65346
_version_ 1822932715002920960