Analysis and comparison of algorithms for the tomographic reconstruction of curved fibres

Bernhard Wolfgang Fröhler; Tim Elberfeld; Torsten Möller; Hans-Christian Hege; Jan de Beenhouwer; Jan Sijbers; Johann Kastner; Christoph Heinzl

doi:10.1080/10589759.2020.1774583

Analysis and comparison of algorithms for the tomographic reconstruction of curved fibres

Bernhard Wolfgang Fröhler, Tim Elberfeld, Torsten Möller, Hans-Christian Hege, Jan de Beenhouwer, Jan Sijbers, Johann Kastner, Christoph Heinzl

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

We present visual methods for the analysis and comparison of the results of curved fibre reconstruction algorithms, i.e., of algorithms extracting characteristics of curved fibres from X-ray computed tomography scans. In this work, we extend previous methods for the analysis and comparison of results of different fibre reconstruction algorithms or parametrisations to the analysis of curved fibres. We propose fibre dissimilarity measures for such curved fibres and apply these to compare multiple results to a specified reference. We further propose visualisation methods to analyse differences between multiple results quantitatively and qualitatively. In two case studies, we show that the presented methods provide valuable insights for advancing and parametrising fibre reconstruction algorithms, and support in improving their results in characterising curved fibres.

Original language	English
Pages (from-to)	328-341
Number of pages	14
Journal	Nondestructive Testing and Evaluation
Volume	35
Issue number	3
DOIs	https://doi.org/10.1080/10589759.2020.1774583
Publication status	Published - 16 Jan 2020

Austrian Fields of Science 2012

102037 Visualisation

Keywords

Fibre-reinforced polymers
curved fibres
fibre reconstruction
fibre visualisation

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10.1080/10589759.2020.1774583Licence: CC BY 4.0

Cite this

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title = "Analysis and comparison of algorithms for the tomographic reconstruction of curved fibres",

abstract = "We present visual methods for the analysis and comparison of the results of curved fibre reconstruction algorithms, i.e., of algorithms extracting characteristics of curved fibres from X-ray computed tomography scans. In this work, we extend previous methods for the analysis and comparison of results of different fibre reconstruction algorithms or parametrisations to the analysis of curved fibres. We propose fibre dissimilarity measures for such curved fibres and apply these to compare multiple results to a specified reference. We further propose visualisation methods to analyse differences between multiple results quantitatively and qualitatively. In two case studies, we show that the presented methods provide valuable insights for advancing and parametrising fibre reconstruction algorithms, and support in improving their results in characterising curved fibres.",

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AU - Fröhler, Bernhard Wolfgang

AU - Elberfeld, Tim

AU - Möller, Torsten

AU - Hege, Hans-Christian

AU - de Beenhouwer, Jan

AU - Sijbers, Jan

AU - Kastner, Johann

AU - Heinzl, Christoph

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AB - We present visual methods for the analysis and comparison of the results of curved fibre reconstruction algorithms, i.e., of algorithms extracting characteristics of curved fibres from X-ray computed tomography scans. In this work, we extend previous methods for the analysis and comparison of results of different fibre reconstruction algorithms or parametrisations to the analysis of curved fibres. We propose fibre dissimilarity measures for such curved fibres and apply these to compare multiple results to a specified reference. We further propose visualisation methods to analyse differences between multiple results quantitatively and qualitatively. In two case studies, we show that the presented methods provide valuable insights for advancing and parametrising fibre reconstruction algorithms, and support in improving their results in characterising curved fibres.

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Analysis and comparison of algorithms for the tomographic reconstruction of curved fibres

Abstract

Austrian Fields of Science 2012

Keywords

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