TLS-based composite structure deformation analysis validated with laser tracker

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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  • Jiangsu University of Science and Technology (JUST)
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OriginalspracheEnglisch
Seiten (von - bis)60-65
Seitenumfang6
FachzeitschriftComposite structures
Jahrgang202
Frühes Online-Datum4 Okt. 2017
PublikationsstatusVeröffentlicht - 15 Okt. 2018

Abstract

This paper focuses on the adjustment of B-spline approximation to terrestrial laser scanning (TLS) data and its contribution to deformation analysis of composite arched structures. The deformation of an arch structure under static loading conditions are investigated with TLS technology which is accurate, time-efficient, and capable to obtain dense 3D coordinates of point clouds for the measured objects. Highly accurate approximation methods for the point clouds data are extremely important for structural deformation analysis. The innovation of this paper is that parameters of B-spline is optimized with laser tracker (LT) to improve the accuracy of deformation monitoring and analysis, where the result is justified with LT data and the uncertainties are analyzed. It is revealed that optimized B-spline approximation agrees better with LT result. The improvement to the B-spline curve with minimum standard deviation reaches 52%, and its improvement to polynomial approximation reaches 77%.

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TLS-based composite structure deformation analysis validated with laser tracker. / Xu, Xiangyang; Bureick, Johannes; Yang, Hao et al.
in: Composite structures, Jahrgang 202, 15.10.2018, S. 60-65.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Xu X, Bureick J, Yang H, Neumann I. TLS-based composite structure deformation analysis validated with laser tracker. Composite structures. 2018 Okt 15;202:60-65. Epub 2017 Okt 4. doi: 10.1016/j.compstruct.2017.10.015, 10.15488/2592
Xu, Xiangyang ; Bureick, Johannes ; Yang, Hao et al. / TLS-based composite structure deformation analysis validated with laser tracker. in: Composite structures. 2018 ; Jahrgang 202. S. 60-65.
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title = "TLS-based composite structure deformation analysis validated with laser tracker",
abstract = "This paper focuses on the adjustment of B-spline approximation to terrestrial laser scanning (TLS) data and its contribution to deformation analysis of composite arched structures. The deformation of an arch structure under static loading conditions are investigated with TLS technology which is accurate, time-efficient, and capable to obtain dense 3D coordinates of point clouds for the measured objects. Highly accurate approximation methods for the point clouds data are extremely important for structural deformation analysis. The innovation of this paper is that parameters of B-spline is optimized with laser tracker (LT) to improve the accuracy of deformation monitoring and analysis, where the result is justified with LT data and the uncertainties are analyzed. It is revealed that optimized B-spline approximation agrees better with LT result. The improvement to the B-spline curve with minimum standard deviation reaches 52%, and its improvement to polynomial approximation reaches 77%.",
keywords = "B-spline fit, Composite arch, Data extraction, Deformation analysis, Point clouds, Terrestrial laser scanning",
author = "Xiangyang Xu and Johannes Bureick and Hao Yang and Ingo Neumann",
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AU - Xu, Xiangyang

AU - Bureick, Johannes

AU - Yang, Hao

AU - Neumann, Ingo

N1 - Funding Information: The publication of this article was funded by the Open Access Fund of the Leibniz Universität Hannover . The authors gratefully acknowledge the support of Massivbau Institute to this research work and also would like to acknowledge the support of Natural Science Foundation of Jiangsu Province (No: BK20160558 ).

PY - 2018/10/15

Y1 - 2018/10/15

N2 - This paper focuses on the adjustment of B-spline approximation to terrestrial laser scanning (TLS) data and its contribution to deformation analysis of composite arched structures. The deformation of an arch structure under static loading conditions are investigated with TLS technology which is accurate, time-efficient, and capable to obtain dense 3D coordinates of point clouds for the measured objects. Highly accurate approximation methods for the point clouds data are extremely important for structural deformation analysis. The innovation of this paper is that parameters of B-spline is optimized with laser tracker (LT) to improve the accuracy of deformation monitoring and analysis, where the result is justified with LT data and the uncertainties are analyzed. It is revealed that optimized B-spline approximation agrees better with LT result. The improvement to the B-spline curve with minimum standard deviation reaches 52%, and its improvement to polynomial approximation reaches 77%.

AB - This paper focuses on the adjustment of B-spline approximation to terrestrial laser scanning (TLS) data and its contribution to deformation analysis of composite arched structures. The deformation of an arch structure under static loading conditions are investigated with TLS technology which is accurate, time-efficient, and capable to obtain dense 3D coordinates of point clouds for the measured objects. Highly accurate approximation methods for the point clouds data are extremely important for structural deformation analysis. The innovation of this paper is that parameters of B-spline is optimized with laser tracker (LT) to improve the accuracy of deformation monitoring and analysis, where the result is justified with LT data and the uncertainties are analyzed. It is revealed that optimized B-spline approximation agrees better with LT result. The improvement to the B-spline curve with minimum standard deviation reaches 52%, and its improvement to polynomial approximation reaches 77%.

KW - B-spline fit

KW - Composite arch

KW - Data extraction

KW - Deformation analysis

KW - Point clouds

KW - Terrestrial laser scanning

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DO - 10.1016/j.compstruct.2017.10.015

M3 - Article

AN - SCOPUS:85032276529

VL - 202

SP - 60

EP - 65

JO - Composite structures

JF - Composite structures

SN - 0263-8223

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