Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation

Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation

This research focused on determining a rotary kiln’s geometric parameters in a non-traditional geodetic way—by deriving them from a survey realized by a terrestrial laser scanner (TLS). The point cloud obtained by TLS measurement was processed to derive the longitudinal axis of the RK. Subsequently,...

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Main Authors: Ľudovít Kovanič, Peter Blistan, Rudolf Urban, Martin Štroner, Katarína Pukanská, Karol Bartoš, Jana Palková
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Applied Sciences
Subjects:
rotary kiln
terrestrial laser scanning
point cloud processing
point cloud segmentation
Online Access:https://www.mdpi.com/2076-3417/10/21/7652
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spelling doaj-466d0f947d9c4f69b8edd563904d9f5d2020-11-25T04:00:56ZengMDPI AGApplied Sciences2076-34172020-10-01107652765210.3390/app10217652Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud SegmentationĽudovít Kovanič0Peter Blistan1Rudolf Urban2Martin Štroner3Katarína Pukanská4Karol Bartoš5Jana Palková6Institute of Geodesy, Cartography and Geographical Information Systems, Faculty of Mining, Ecology, Process Control and Geotechnology, Technical University Kosice, Park Komenského 19, 04001 Košice, Slovak RepublicInstitute of Geodesy, Cartography and Geographical Information Systems, Faculty of Mining, Ecology, Process Control and Geotechnology, Technical University Kosice, Park Komenského 19, 04001 Košice, Slovak RepublicDepartment of Special Geodesy, Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 36 Prague 6, Czech RepublicDepartment of Special Geodesy, Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 36 Prague 6, Czech RepublicInstitute of Geodesy, Cartography and Geographical Information Systems, Faculty of Mining, Ecology, Process Control and Geotechnology, Technical University Kosice, Park Komenského 19, 04001 Košice, Slovak RepublicInstitute of Geodesy, Cartography and Geographical Information Systems, Faculty of Mining, Ecology, Process Control and Geotechnology, Technical University Kosice, Park Komenského 19, 04001 Košice, Slovak RepublicInstitute of Geodesy, Cartography and Geographical Information Systems, Faculty of Mining, Ecology, Process Control and Geotechnology, Technical University Kosice, Park Komenského 19, 04001 Košice, Slovak RepublicThis research focused on determining a rotary kiln’s geometric parameters in a non-traditional geodetic way—by deriving them from a survey realized by a terrestrial laser scanner (TLS). The point cloud obtained by TLS measurement was processed to derive the longitudinal axis of the RK. Subsequently, the carrier tires’ geometric parameters and shell of the RK during the shutdown were derived. Manual point cloud selection (segmentation) is the base method for removing unnecessary points. This method is slow but precise and controllable. The proposed analytical solution is based on calculating the distance from each point to the RK’s nominal axis (local radius). Iteration using a histogram function was repeatedly applied to detect points with the same or similar radiuses. The most numerous intervals of points were selected and stored in separate files. In the comparison, we present the conformity of analytically and manually obtained files and derived geometric values of the RK-radiuses’ spatial parameters and coordinates of the carrier tires’ centers. The horizontal (X and Y directions) and vertical (Z-direction) of root–mean–square deviation (RMSD) values are up to 2 mm. RMSD of the fitting of cylinders is also up to 2 mm. The center of the carrier tires defines the longitudinal axis of the RK. Analytical segmentation of the points was repeated on the remaining point cloud for the selection of the points on the outer shell of the RK. Deformation analysis of the shell of the RK was performed using a cylinder with a nominal radius. Manually and analytically processed point clouds were investigated and mutually compared. The calculated RMSD value is up to 2 mm. Parallel cuts situated perpendicularly to the axis of the RK were created. Analysis of ovality (flattening) of the shell was performed. Additionally, we also present the effect of gradually decreasing density (number) of points on the carrier tires for their center derivation.https://www.mdpi.com/2076-3417/10/21/7652rotary kilnterrestrial laser scanningpoint cloud processingpoint cloud segmentation
collection DOAJ
language English
format Article
sources DOAJ
author Ľudovít Kovanič
Peter Blistan
Rudolf Urban
Martin Štroner
Katarína Pukanská
Karol Bartoš
Jana Palková
spellingShingle Ľudovít Kovanič
Peter Blistan
Rudolf Urban
Martin Štroner
Katarína Pukanská
Karol Bartoš
Jana Palková
Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation
Applied Sciences
rotary kiln
terrestrial laser scanning
point cloud processing
point cloud segmentation
author_facet Ľudovít Kovanič
Peter Blistan
Rudolf Urban
Martin Štroner
Katarína Pukanská
Karol Bartoš
Jana Palková
author_sort Ľudovít Kovanič
title Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation
title_short Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation
title_full Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation
title_fullStr Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation
title_full_unstemmed Analytical Determination of Geometric Parameters of the Rotary Kiln by Novel Approach of TLS Point Cloud Segmentation
title_sort analytical determination of geometric parameters of the rotary kiln by novel approach of tls point cloud segmentation
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2020-10-01
description This research focused on determining a rotary kiln’s geometric parameters in a non-traditional geodetic way—by deriving them from a survey realized by a terrestrial laser scanner (TLS). The point cloud obtained by TLS measurement was processed to derive the longitudinal axis of the RK. Subsequently, the carrier tires’ geometric parameters and shell of the RK during the shutdown were derived. Manual point cloud selection (segmentation) is the base method for removing unnecessary points. This method is slow but precise and controllable. The proposed analytical solution is based on calculating the distance from each point to the RK’s nominal axis (local radius). Iteration using a histogram function was repeatedly applied to detect points with the same or similar radiuses. The most numerous intervals of points were selected and stored in separate files. In the comparison, we present the conformity of analytically and manually obtained files and derived geometric values of the RK-radiuses’ spatial parameters and coordinates of the carrier tires’ centers. The horizontal (X and Y directions) and vertical (Z-direction) of root–mean–square deviation (RMSD) values are up to 2 mm. RMSD of the fitting of cylinders is also up to 2 mm. The center of the carrier tires defines the longitudinal axis of the RK. Analytical segmentation of the points was repeated on the remaining point cloud for the selection of the points on the outer shell of the RK. Deformation analysis of the shell of the RK was performed using a cylinder with a nominal radius. Manually and analytically processed point clouds were investigated and mutually compared. The calculated RMSD value is up to 2 mm. Parallel cuts situated perpendicularly to the axis of the RK were created. Analysis of ovality (flattening) of the shell was performed. Additionally, we also present the effect of gradually decreasing density (number) of points on the carrier tires for their center derivation.
topic rotary kiln
terrestrial laser scanning
point cloud processing
point cloud segmentation
url https://www.mdpi.com/2076-3417/10/21/7652
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AT martinstroner analyticaldeterminationofgeometricparametersoftherotarykilnbynovelapproachoftlspointcloudsegmentation
AT katarinapukanska analyticaldeterminationofgeometricparametersoftherotarykilnbynovelapproachoftlspointcloudsegmentation
AT karolbartos analyticaldeterminationofgeometricparametersoftherotarykilnbynovelapproachoftlspointcloudsegmentation
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