The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D

The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D

This article was created as a result of research conducted within the master thesis. The purpose of the measurements was to analyze the accuracy of the positioning of points by computer programs. Selected software was a specialized computer software dedicated to photogrammetric work. For comparative...

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Main Authors: Barbasiewicz Adrianna, Widerski Tadeusz, Daliga Karol
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20182600012
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spelling doaj-606c299017fe449d8d24aba9c093b1012021-02-02T03:21:09ZengEDP SciencesE3S Web of Conferences2267-12422018-01-01260001210.1051/e3sconf/20182600012e3sconf_bgc2018_00012The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4DBarbasiewicz AdriannaWiderski TadeuszDaliga KarolThis article was created as a result of research conducted within the master thesis. The purpose of the measurements was to analyze the accuracy of the positioning of points by computer programs. Selected software was a specialized computer software dedicated to photogrammetric work. For comparative purposes it was decided to use tools with similar functionality. As the basic parameters that affect the results selected the resolution of the photos on which the key points were searched. In order to determine the location of the determined points, it was decided to follow the photogrammetric resection rule. In order to automate the measurement, the measurement session planning was omitted. The coordinates of the points collected by the tachymetric measure were used as a reference system. The resulting deviations and linear displacements oscillate in millimeters. The visual aspects of the cloud points have also been briefly analyzed.https://doi.org/10.1051/e3sconf/20182600012
collection DOAJ
language English
format Article
sources DOAJ
author Barbasiewicz Adrianna
Widerski Tadeusz
Daliga Karol
spellingShingle Barbasiewicz Adrianna
Widerski Tadeusz
Daliga Karol
The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D
E3S Web of Conferences
author_facet Barbasiewicz Adrianna
Widerski Tadeusz
Daliga Karol
author_sort Barbasiewicz Adrianna
title The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D
title_short The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D
title_full The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D
title_fullStr The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D
title_full_unstemmed The analysis of the accuracy of spatial models using photogrammetric software: Agisoft Photoscan and Pix4D
title_sort analysis of the accuracy of spatial models using photogrammetric software: agisoft photoscan and pix4d
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2018-01-01
description This article was created as a result of research conducted within the master thesis. The purpose of the measurements was to analyze the accuracy of the positioning of points by computer programs. Selected software was a specialized computer software dedicated to photogrammetric work. For comparative purposes it was decided to use tools with similar functionality. As the basic parameters that affect the results selected the resolution of the photos on which the key points were searched. In order to determine the location of the determined points, it was decided to follow the photogrammetric resection rule. In order to automate the measurement, the measurement session planning was omitted. The coordinates of the points collected by the tachymetric measure were used as a reference system. The resulting deviations and linear displacements oscillate in millimeters. The visual aspects of the cloud points have also been briefly analyzed.
url https://doi.org/10.1051/e3sconf/20182600012
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AT widerskitadeusz analysisoftheaccuracyofspatialmodelsusingphotogrammetricsoftwareagisoftphotoscanandpix4d
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