Evaluation of the standard measurement uncertainty due to the ISO surface determination method for dimensional computed tomography
Evaluation of the standard measurement uncertainty due to the ISO surface determination method for dimensional computed tomography
Surface determination is the process by which a CT volume is converted from an image-based representation of an object to a surface-based representation. The process of surface determination relies on well-established image processing algorithms, but these algorithms are not exact, surface determination therefore contributes a component of uncertainty to X-ray CT based dimensional measurements. The purpose of this work is to develop a method for quantifying the standard uncertainty due to surface determination such that this standard uncertainty can be combined with other standard uncertainties in order to calculate the combined standard uncertainty for Xray CT based dimensional measurements. The proposed method relies on evaluating the mode and the 68%dispersion of the air and material grey values of a given CT data-set. These values are propagated through theISO50 threshold calculation to give the standard uncertainty of the ISO50 threshold value from which thestandard uncertainty due to the ISO50 surface determination method can be evaluated. The proposed method is verified numerically and then demonstrated experimentally for dimensional measurements of an aluminium workpiece, a polymer workpiece, and a steel additively manufactured workpiece. The results show that the measurement uncertainty due to the ISO50 surface determination method is largest for dimensions that have both internal and external surfaces such as wall thicknesses, followed by dimensions such as internal and external diameters, whilst dimensions that are not sensitive to surface determination, for example centre-to-centre distances have the smallest uncertainty due to the ISO50 surface determination method.
X-ray computed tomography, Dimensional metrology, Surface determination, Measurement uncertainty
82-92
Lifton, J.J.
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Liu, T.
17f1a70b-449d-4078-af64-957a5b374698
18 October 2019
Lifton, J.J.
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Liu, T.
17f1a70b-449d-4078-af64-957a5b374698
Lifton, J.J. and Liu, T.
(2019)
Evaluation of the standard measurement uncertainty due to the ISO surface determination method for dimensional computed tomography.
Precision Engineering, 61, .
(doi:10.1016/j.precisioneng.2019.10.004).
Abstract
Surface determination is the process by which a CT volume is converted from an image-based representation of an object to a surface-based representation. The process of surface determination relies on well-established image processing algorithms, but these algorithms are not exact, surface determination therefore contributes a component of uncertainty to X-ray CT based dimensional measurements. The purpose of this work is to develop a method for quantifying the standard uncertainty due to surface determination such that this standard uncertainty can be combined with other standard uncertainties in order to calculate the combined standard uncertainty for Xray CT based dimensional measurements. The proposed method relies on evaluating the mode and the 68%dispersion of the air and material grey values of a given CT data-set. These values are propagated through theISO50 threshold calculation to give the standard uncertainty of the ISO50 threshold value from which thestandard uncertainty due to the ISO50 surface determination method can be evaluated. The proposed method is verified numerically and then demonstrated experimentally for dimensional measurements of an aluminium workpiece, a polymer workpiece, and a steel additively manufactured workpiece. The results show that the measurement uncertainty due to the ISO50 surface determination method is largest for dimensions that have both internal and external surfaces such as wall thicknesses, followed by dimensions such as internal and external diameters, whilst dimensions that are not sensitive to surface determination, for example centre-to-centre distances have the smallest uncertainty due to the ISO50 surface determination method.
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Accepted/In Press date: 7 October 2019
e-pub ahead of print date: 10 October 2019
Published date: 18 October 2019
Keywords:
X-ray computed tomography, Dimensional metrology, Surface determination, Measurement uncertainty
Identifiers
Local EPrints ID: 507718
URI: http://eprints.soton.ac.uk/id/eprint/507718
ISSN: 0141-6359
PURE UUID: 4a60bfc6-942f-4f3d-be4c-e737b33d9f9d
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Date deposited: 19 Dec 2025 18:12
Last modified: 20 Dec 2025 03:48
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Author:
J.J. Lifton
Author:
T. Liu
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