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Auteurs principaux: Yuan, Bingan, Liu, Bowei, Fang, Zheng
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2505.05745
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author Yuan, Bingan
Liu, Bowei
Fang, Zheng
author_facet Yuan, Bingan
Liu, Bowei
Fang, Zheng
contents Tangential computed tomography (TCT) is a useful tool for imaging the large-diameter samples, such as oil pipelines and rockets. However, TCT projections are truncated along the detector direction, resulting in degraded slices with radial artifacts. Meanwhile, existing methods fail to reconstruct decent images because of the ill-defined sampling condition in the projection domain and oversmoothing in the cross-section domain. In this paper, we propose a projection quantification and fidelity constraint integrated deep TCT reconstruction method (ProTCT) to improve the slice quality. Specifically, the sampling conditions for reconstruction are analysed, offering practical guidelines for TCT system design. Besides, a deep artifact-suppression network together with a fidelity-constraint module that operates across both projection and cross-section domains to remove artifacts and restore edge details. Demonstrated on simulated and real datasets, the ProTCT shows good performance in structure restoration and detail retention. This work contributes to exploring the sampling condition and improving the slice quality of TCT, further promoting the application of large view field CT imaging.
format Preprint
id arxiv_https___arxiv_org_abs_2505_05745
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ProTCT: Projection quantification and fidelity constraint integrated deep reconstruction for Tangential CT
Yuan, Bingan
Liu, Bowei
Fang, Zheng
Image and Video Processing
Tangential computed tomography (TCT) is a useful tool for imaging the large-diameter samples, such as oil pipelines and rockets. However, TCT projections are truncated along the detector direction, resulting in degraded slices with radial artifacts. Meanwhile, existing methods fail to reconstruct decent images because of the ill-defined sampling condition in the projection domain and oversmoothing in the cross-section domain. In this paper, we propose a projection quantification and fidelity constraint integrated deep TCT reconstruction method (ProTCT) to improve the slice quality. Specifically, the sampling conditions for reconstruction are analysed, offering practical guidelines for TCT system design. Besides, a deep artifact-suppression network together with a fidelity-constraint module that operates across both projection and cross-section domains to remove artifacts and restore edge details. Demonstrated on simulated and real datasets, the ProTCT shows good performance in structure restoration and detail retention. This work contributes to exploring the sampling condition and improving the slice quality of TCT, further promoting the application of large view field CT imaging.
title ProTCT: Projection quantification and fidelity constraint integrated deep reconstruction for Tangential CT
topic Image and Video Processing
url https://arxiv.org/abs/2505.05745