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A Novel Method for Fast Generation of 3D Objects from Multiple Depth Sensors

A Novel Method for Fast Generation of 3D Objects from Multiple Depth Sensors AbstractScanning real 3D objects face many technical challenges. Stationary solutions allow for accurate scanning. However, they usually require special and expensive equipment. Competitive mobile solutions (handheld scanners, LiDARs on vehicles, etc.) do not allow for an accurate and fast mapping of the surface of the scanned object. The article proposes an end-to-end automated solution that enables the use of widely available mobile and stationary scanners. The related system generates a full 3D model of the object based on multiple depth sensors. For this purpose, the scanned object is marked with markers. Markers type and positions are automatically detected and mapped to a template mesh. The reference template is automatically selected for the scanned object, which is then transformed according to the data from the scanners with non-rigid transformation. The solution allows for the fast scanning of complex and varied size objects, constituting a set of training data for segmentation and classification systems of 3D scenes. The main advantage of the proposed solution is its efficiency, which enables real-time scanning and the ability to generate a mesh with a regular structure. It is critical for training data for machine learning algorithms. The source code is available at https://github.com/SATOffice/improved_scanner3D. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Artificial Intelligence and Soft Computing Research de Gruyter

A Novel Method for Fast Generation of 3D Objects from Multiple Depth Sensors

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Publisher
de Gruyter
Copyright
© 2023 Tomasz Szmuc et al., published by Sciendo
eISSN
2083-2567
DOI
10.2478/jaiscr-2023-0009
Publisher site
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Abstract

AbstractScanning real 3D objects face many technical challenges. Stationary solutions allow for accurate scanning. However, they usually require special and expensive equipment. Competitive mobile solutions (handheld scanners, LiDARs on vehicles, etc.) do not allow for an accurate and fast mapping of the surface of the scanned object. The article proposes an end-to-end automated solution that enables the use of widely available mobile and stationary scanners. The related system generates a full 3D model of the object based on multiple depth sensors. For this purpose, the scanned object is marked with markers. Markers type and positions are automatically detected and mapped to a template mesh. The reference template is automatically selected for the scanned object, which is then transformed according to the data from the scanners with non-rigid transformation. The solution allows for the fast scanning of complex and varied size objects, constituting a set of training data for segmentation and classification systems of 3D scenes. The main advantage of the proposed solution is its efficiency, which enables real-time scanning and the ability to generate a mesh with a regular structure. It is critical for training data for machine learning algorithms. The source code is available at https://github.com/SATOffice/improved_scanner3D.

Journal

Journal of Artificial Intelligence and Soft Computing Researchde Gruyter

Published: Mar 1, 2023

Keywords: 3D scan; LiDAR; point cloud; mesh; registration

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