二维电阻抗断层成像中系统伪影非线性傅立叶域的自动滤波

IF 1.2 4区数学 Q2 MATHEMATICS, APPLIED

Inverse Problems and Imaging Pub Date : 2021-01-01 DOI:10.3934/ipi.2021066

M. Alsaker, Benjamin Bladow, S. Campbell, Emma M. Kar

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引用次数: 1

摘要

对于因呼吸衰竭而进行机械通气的患者，二维电阻抗断层扫描(EIT)正在成为一种提供肺过程功能监测的手段。在EIT中，将电流施加到物体上，然后根据随后的电压测量重建内部电导率分布。然而，众所周知，EIT图像经常受到由各种限制引起的大型系统伪影的影响，并因逆问题的病态而加剧。直接d条重建方法允许对EIT问题进行非线性傅里叶分析，提供了在非物理频率范围内处理和滤波重建的能力。在这项工作中，介绍了一种在二维d条重建中对已知系统伪影进行自动傅立叶域滤波的技术。采用三个带有诱发伪影的数值模拟静态胸廓数据集和两个包含系统伪影的实验动态人体通气数据集对新方法进行了验证。应用该方法可以显著减少伪影的出现，并改善所有数据集中肺区域的形状。

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Automated filtering in the nonlinear Fourier domain of systematic artifacts in 2D electrical impedance tomography

For patients undergoing mechanical ventilation due to respiratory failure, 2D electrical impedance tomography (EIT) is emerging as a means to provide functional monitoring of pulmonary processes. In EIT, electrical current is applied to the body, and the internal conductivity distribution is reconstructed based on subsequent voltage measurements. However, EIT images are known to often suffer from large systematic artifacts arising from various limitations and exacerbated by the ill-posedness of the inverse problem. The direct D-bar reconstruction method admits a nonlinear Fourier analysis of the EIT problem, providing the ability to process and filter reconstructions in the nonphysical frequency regime. In this work, a technique is introduced for automated Fourier-domain filtering of known systematic artifacts in 2D D-bar reconstructions. The new method is validated using three numerically simulated static thoracic datasets with induced artifacts, plus two experimental dynamic human ventilation datasets containing systematic artifacts. Application of the method is shown to significantly reduce the appearance of artifacts and improve the shape of the lung regions in all datasets.

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来源期刊

Inverse Problems and Imaging 数学-物理：数学物理

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Inverse Problems and Imaging publishes research articles of the highest quality that employ innovative mathematical and modeling techniques to study inverse and imaging problems arising in engineering and other sciences. Every published paper has a strong mathematical orientation employing methods from such areas as control theory, discrete mathematics, differential geometry, harmonic analysis, functional analysis, integral geometry, mathematical physics, numerical analysis, optimization, partial differential equations, and stochastic and statistical methods. The field of applications includes medical and other imaging, nondestructive testing, geophysical prospection and remote sensing as well as image analysis and image processing. This journal is committed to recording important new results in its field and will maintain the highest standards of innovation and quality. To be published in this journal, a paper must be correct, novel, nontrivial and of interest to a substantial number of researchers and readers.