IntelliScan: improving the quality of x-ray computed tomography surface data through intelligent selection of projection angles
IntelliScan: improving the quality of x-ray computed tomography surface data through intelligent selection of projection angles
X-ray computed tomography (XCT) enables the dimensional measurement and inspection of highly geometrically complex engineering components that are unmeasurable using optical and tactile instruments. Conventional XCT scans use a circular scan trajectory where X-ray projections are acquired with a uniform angular spacing; this approach treats all projections as being of equal importance, in practice, some projections contain more object information than others. In this work we capitalize on this concept by intelligently selecting projections with a view to improve the quality of surface models extracted from an XCT data-set. Our approach relies on using a priori object information to select X-ray projections in which the surfaces of the object are aligned with a ray-path, thus ensuring the surface of the object is fully sampled. Results are presented showing that the proposed method is able to reduce CAD comparison errors by 16%, reduce surface form error by 3%, and improve edge contrast by 14% for a machined aluminium component.
119-129
Lifton, Joseph John
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Poon, Keng Yong
1a894c81-514e-4fe9-bf57-93c0c44b559d
27 January 2023
Lifton, Joseph John
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Poon, Keng Yong
1a894c81-514e-4fe9-bf57-93c0c44b559d
Lifton, Joseph John and Poon, Keng Yong
(2023)
IntelliScan: improving the quality of x-ray computed tomography surface data through intelligent selection of projection angles.
Journal of X-Ray Science and Technology, 31 (1), .
(doi:10.3233/XST-221280).
Abstract
X-ray computed tomography (XCT) enables the dimensional measurement and inspection of highly geometrically complex engineering components that are unmeasurable using optical and tactile instruments. Conventional XCT scans use a circular scan trajectory where X-ray projections are acquired with a uniform angular spacing; this approach treats all projections as being of equal importance, in practice, some projections contain more object information than others. In this work we capitalize on this concept by intelligently selecting projections with a view to improve the quality of surface models extracted from an XCT data-set. Our approach relies on using a priori object information to select X-ray projections in which the surfaces of the object are aligned with a ray-path, thus ensuring the surface of the object is fully sampled. Results are presented showing that the proposed method is able to reduce CAD comparison errors by 16%, reduce surface form error by 3%, and improve edge contrast by 14% for a machined aluminium component.
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lifton-poon-2022-intelliscan-improving-the-quality-of-x-ray-computed-tomography-surface-data-through-intelligent
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Accepted/In Press date: 21 November 2022
e-pub ahead of print date: 12 December 2022
Published date: 27 January 2023
Identifiers
Local EPrints ID: 498364
URI: http://eprints.soton.ac.uk/id/eprint/498364
ISSN: 0895-3996
PURE UUID: a9184f75-fa23-471f-a5e3-1ae0fee9d49a
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Date deposited: 17 Feb 2025 17:42
Last modified: 18 Feb 2025 03:09
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Author:
Joseph John Lifton
Author:
Keng Yong Poon
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