Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data

Digital Elevation Model (DEM) currently is extensively used extensively in various applications such as for natural hazard assessment and monitoring of high risk areas. DEM data source of inaccessible areas can be collected by using several methods, but mostly are costly and requires sophisticate...

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Main Author: Cahyono, Bambang Kun Cahyono
Format: Thesis
Language:English
Published: 2009
Online Access:http://utpedia.utp.edu.my/2908/1/Corrected_VivaVoce190209_BambangKunCahyono.pdf
http://utpedia.utp.edu.my/2908/
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Institution: Universiti Teknologi Petronas
Language: English
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spelling my-utp-utpedia.29082017-01-25T09:44:11Z http://utpedia.utp.edu.my/2908/ Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data Cahyono, Bambang Kun Cahyono Digital Elevation Model (DEM) currently is extensively used extensively in various applications such as for natural hazard assessment and monitoring of high risk areas. DEM data source of inaccessible areas can be collected by using several methods, but mostly are costly and requires sophisticated instruments. Due to these conditions, close-range photogrammetry offers a low cost alternative solution. Materials presented in this thesis are based on the experiments to explain the application of close-range photogrammetry with the aid of commercial digital pocket camera as DEM data collection tools, applied on inaccessible slope areas. The analysis covers calibration of the camera and surveying instruments, DEM data collections, data processing and visualization, together with DEM quality measures. The data collections are accomplished on several study areas with different topographical characteristics by using close-range photogrammetry technique. The sampling points were selected on stereo model, by using three types of sampling methods. The DEM quality measures are assessed by following elevation interpolation error and volumetric difference error analyses. The representation of the DEM is generated using TIN-based (Triangular Irregular Network) approach. The result shows that the method is able to be applied for three dimensional (3D) modeling of potentially unstable slope areas, with accuracy of less than 15 cm in RMS for elevation error and is less than 1% in volume error. The result has indicated that topographical condition has not affected the accuracy of generated DEM. Improvement of point density radically enhances the DEM’s quality, up to a certain level of point density beyond which the increment of the accuracy is not significant. The difference setting of focal length has also influences the quality of captured images, and drastically affects the accuracy of the DEM. If the accuracy of the DEM is a matter of concern, the preferred sampling method is selective sampling, while if accuracy and DEM’s time generation are the concern the most effective sampling method is regular sampling method. Since there was no permanent points on the observed slope surface, velocity and direction of landslide could not be accurately determined. However the distribution of massmovement and elevation changed on the slope surfaces can be modeled through spatialcalculation of overlaying DEMs together with profiling of cross-section and longitudinalsection of the generated DEMs. 2009-01 Thesis NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/2908/1/Corrected_VivaVoce190209_BambangKunCahyono.pdf Cahyono, Bambang Kun Cahyono (2009) Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data. Masters thesis, UNIVERSITI TEKNOLOGI PETRONAS.
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Electronic and Digitized Intellectual Asset
url_provider http://utpedia.utp.edu.my/
language English
description Digital Elevation Model (DEM) currently is extensively used extensively in various applications such as for natural hazard assessment and monitoring of high risk areas. DEM data source of inaccessible areas can be collected by using several methods, but mostly are costly and requires sophisticated instruments. Due to these conditions, close-range photogrammetry offers a low cost alternative solution. Materials presented in this thesis are based on the experiments to explain the application of close-range photogrammetry with the aid of commercial digital pocket camera as DEM data collection tools, applied on inaccessible slope areas. The analysis covers calibration of the camera and surveying instruments, DEM data collections, data processing and visualization, together with DEM quality measures. The data collections are accomplished on several study areas with different topographical characteristics by using close-range photogrammetry technique. The sampling points were selected on stereo model, by using three types of sampling methods. The DEM quality measures are assessed by following elevation interpolation error and volumetric difference error analyses. The representation of the DEM is generated using TIN-based (Triangular Irregular Network) approach. The result shows that the method is able to be applied for three dimensional (3D) modeling of potentially unstable slope areas, with accuracy of less than 15 cm in RMS for elevation error and is less than 1% in volume error. The result has indicated that topographical condition has not affected the accuracy of generated DEM. Improvement of point density radically enhances the DEM’s quality, up to a certain level of point density beyond which the increment of the accuracy is not significant. The difference setting of focal length has also influences the quality of captured images, and drastically affects the accuracy of the DEM. If the accuracy of the DEM is a matter of concern, the preferred sampling method is selective sampling, while if accuracy and DEM’s time generation are the concern the most effective sampling method is regular sampling method. Since there was no permanent points on the observed slope surface, velocity and direction of landslide could not be accurately determined. However the distribution of massmovement and elevation changed on the slope surfaces can be modeled through spatialcalculation of overlaying DEMs together with profiling of cross-section and longitudinalsection of the generated DEMs.
format Thesis
author Cahyono, Bambang Kun Cahyono
spellingShingle Cahyono, Bambang Kun Cahyono
Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data
author_facet Cahyono, Bambang Kun Cahyono
author_sort Cahyono, Bambang Kun Cahyono
title Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data
title_short Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data
title_full Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data
title_fullStr Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data
title_full_unstemmed Digital Elevation Modeling of Inaccessible Slope by Using Close-range Photogrammetric Data
title_sort digital elevation modeling of inaccessible slope by using close-range photogrammetric data
publishDate 2009
url http://utpedia.utp.edu.my/2908/1/Corrected_VivaVoce190209_BambangKunCahyono.pdf
http://utpedia.utp.edu.my/2908/
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