PEMBANGUNAN BASISDATA SPASIAL 3D STRUKTUR GEOMETRI DAN TOPOLOGI UNTUK MENDUKUNG QUERI SPASIAL (Studi Kasus : Rusun Plasa Simpanglima, Semarang)
3D Cadastre is a challenging GIS topic that includes a variety of issues related to the use of space vertically. Representation of the 3D objects in 3D Cadastre is an important aspect. In realizing the representation of 3D objects, the construction of 3D spatial database requires special attention....
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| Main Authors: | , |
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| Format: | Theses and Dissertations NonPeerReviewed |
| Published: |
[Yogyakarta] : Universitas Gadjah Mada
2013
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| Subjects: | |
| Online Access: | https://repository.ugm.ac.id/119691/ http://etd.ugm.ac.id/index.php?mod=penelitian_detail&sub=PenelitianDetail&act=view&typ=html&buku_id=59694 |
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| Institution: | Universitas Gadjah Mada |
| Summary: | 3D Cadastre is a challenging GIS topic that includes a variety of issues
related to the use of space vertically. Representation of the 3D objects in 3D
Cadastre is an important aspect. In realizing the representation of 3D objects, the
construction of 3D spatial database requires special attention. There are two
approaches for building database structures to represent 3D spatial objects,
namely geometry structure and topology structure. The fundamental difference
between the two structures is on their storage methods. The storage of spatial data
with topology structures does not contain redundant objects. This research is
aimed at building 3D spatial databases of geometry structure and topology
structure with 2.5D approach that provides information about the ability of both
database structures to support spatial query and its implementation on a real
cadastre case.
The data used in this research are 3D models of Simpanglima Semarang
Rusun Plasa that came from field measurements and attributes data collection.
The constructed 3D models were edited to get a wireframe model of Simpanglima
Semarang Rusun Plasa. The wireframe model was converted into geometry based
structure and topology based structure and then stored by using PostgreSQL 9.1
software and PostGIS 2.0.1 extension. After the database of the geometry
structure and topology structure were built, identification process was performed
on the two databases using topological operations through spatial queries. In
addition, data analysis using real cases cadastre was done to determine the ability
of cronstructed databases in solving real world cases of 3D cadastre.
Comparative result of spatial query between the geometry-based structure
and topology-based structure is presented in a graphical image that shows the
execution time of spatial operation in milliseconds. The result of spatial operation
using topology queries shows that the database of topological structure executes
queries two times faster than geometry structure by using operator equals,
disjoint, touches, intersects, and overlaps, while by using operator within and
contains topology structure executes twenty one times faster. For the crosses
operator, the database of geometry structure executes spatial query faster than the
database of topology structure. Then the result of the analysis using real 3D
cadastre cases shows that topology-based data structure is only able to provide
information related to space relationships in the case of adjacent room objects at
first floor of Simpanglima Rusun Plasa and land border areas. |
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