Sparsity-driven deterministic sampling strategy for coded aperture x-ray computed tomography

This volume of Measurement Science and Technology contains a Special Feature on Industrial Vision and Automation. The special feature puts together research articles within the common denominator of Industrial Vision & Automation, especially for evaluation of various materials. This tried to demonstrate the breadth of applications for which one can use various vision systems, together with very recent research developments, some clear demonstrations of the method at work in applications and some of the necessary background theory that underpins the basic vision modalities. This special feature based on the adopted imaging methodology and the principles involved. Further articles in this Special Feature are sub-classified in to optical, thermal, X-ray and acoustical vision modalities as presented below with a brief description of the accepted manuscripts in each sub-section. Optical Vision Systems: An alternative technique is proposed to improve the visual detection rate of longitudinal conveyor belt tears by Gongxian Wang et al [1]; Automatic defect detection in multi-crystalline solar wafers using deep learning is presented by Du-Ming Tsai et al [2] Thermo-Vision Systems: An efficient denoising CAE with U-net architecture is proposed for thermal data to solve the problem of an insufficient dataset has been demonstrated in the work of Xiaoyuan Li et al [3]; Exploratory factor analysis for defect identification with active thermography is presented by Kai-Lun Huang et al [4]; X-ray Vision Systems: Coded aperture x-ray computed tomography `by sparsity-driven deterministic sampling strategy is demonstrated by Munnu Sonkar et al [5]; Acoustical Vision Systems: Phase velocity measurement of dispersive wave modes by Gaussian peak-tracing using f-k transform is presented by Bikash Ghose et al [6]; Coplanar electrical/ultrasonic dual-modality tomography for water continuous gas/oil/water three-phase distribution imaging is demonstrated by Guanghui Liang et al [7]; Defect visualization of cylindrical and conical CFRP lattice structures using rotational ultrasonic propagation imager is highlighted by J H An et al [8]; We are sure that readers will find this as a valuable special feature and a useful reference resource. Finally, we would like to thank all the authors for their contributions, the referees for their effort to thoroughly review the manuscripts by providing their valuable feedback to enhance the quality and the entire Editorial Board of Measurement Science and Technology for their constant support.

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“…Coded aperture x-ray computed tomography`by sparsity-driven deterministic sampling strategy is demonstrated by Sonkar et al [5].…”

Section: X-ray Vision Systemsmentioning

confidence: 99%

Industrial vision and automation

Mulaveesala¹,

Arora²,

Dua³

et al. 2022

Meas. Sci. Technol.

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AdaTL₁: an adaptive non-convex sparse solver with applications to CT reconstruction and image denoising

Najiya,

Sastry

2024

Inverse Problems

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Sparsity-promoting optimization techniques have, in recent years, gained prominence due to the availability of efficient solvers and their capability to efficiently use inherent duplication present in underlying data. In clinical Tomography, a faithful reconstruction of the cross-section of an object or image from a reduced set of X-ray attenuation samples attains importance. Though sparsity methods in Computed Tomography (CT) have already been well attended to, there is still a need for newer ideas that accommodate the highly coherent nature of the sub-sampled Radon matrix and incorporate adaptive information into the recovery process. To this end, we propose an adaptive transformed $L_1$ minimization (referred to as {\it Ada$TL_1$}), which being a non-convex problem is a generalization of transformed $L_1$ minimization. We discuss the recovery guarantees of {\it Ada$TL_1$} and propose its solver. Further, we compare and contrast its performance against the known methods in the reconstruction of CT as well as the denoising of images.

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Sparsity-driven deterministic sampling strategy for coded aperture x-ray computed tomography

Cited by 2 publications

References 31 publications

Industrial vision and automation

Industrial vision and automation

AdaTL₁: an adaptive non-convex sparse solver with applications to CT reconstruction and image denoising

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Sparsity-driven deterministic sampling strategy for coded aperture x-ray computed tomography

Cited by 2 publications

References 31 publications

Industrial vision and automation

Industrial vision and automation

AdaTL1: an adaptive non-convex sparse solver with applications to CT reconstruction and image denoising

Contact Info

Product

Resources

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AdaTL₁: an adaptive non-convex sparse solver with applications to CT reconstruction and image denoising