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Autores principales: de Moraes, Francisco Roza, da Silva, Irineu
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2409.15602
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author de Moraes, Francisco Roza
da Silva, Irineu
author_facet de Moraes, Francisco Roza
da Silva, Irineu
contents Creating 3D models through the Structure from Motion technique is a recognized, efficient, cost-effective structural monitoring strategy. This technique is applied in several engineering fields, particularly for creating models of large structures from photographs taken a few tens of meters away. However, discussions about its usability and the procedures for conducting laboratory analysis, such as structural tests, are rarely addressed. This study investigates the potential of the SfM method to create submillimeter-quality models for structural tests, with short-distance captures. A series of experiments was carried out, with photographic captures at a 1-meter distance, using different quality settings: camera calibration model, Scale Bars dispersion, overlapping rates, and the use of vertical and oblique images. Employing a calibration model with images taken over a test board and a set of Scale Bars (SB) appropriately distributed over the test area, an overlap rate of 80 percent, and the integration of vertical and oblique images, RMSE values of approximately 0.1 mm were obtained. This result indicates the potential application of the technique for 3D modeling with submillimeter positional quality, as required for structural tests in laboratory environments.
format Preprint
id arxiv_https___arxiv_org_abs_2409_15602
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Assessment of Submillimeter Precision via Structure from Motion Technique in Close-Range Capture Environments
de Moraes, Francisco Roza
da Silva, Irineu
Computer Vision and Pattern Recognition
Creating 3D models through the Structure from Motion technique is a recognized, efficient, cost-effective structural monitoring strategy. This technique is applied in several engineering fields, particularly for creating models of large structures from photographs taken a few tens of meters away. However, discussions about its usability and the procedures for conducting laboratory analysis, such as structural tests, are rarely addressed. This study investigates the potential of the SfM method to create submillimeter-quality models for structural tests, with short-distance captures. A series of experiments was carried out, with photographic captures at a 1-meter distance, using different quality settings: camera calibration model, Scale Bars dispersion, overlapping rates, and the use of vertical and oblique images. Employing a calibration model with images taken over a test board and a set of Scale Bars (SB) appropriately distributed over the test area, an overlap rate of 80 percent, and the integration of vertical and oblique images, RMSE values of approximately 0.1 mm were obtained. This result indicates the potential application of the technique for 3D modeling with submillimeter positional quality, as required for structural tests in laboratory environments.
title Assessment of Submillimeter Precision via Structure from Motion Technique in Close-Range Capture Environments
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2409.15602