Compressed Sensing in Parallel MRI: A Review

Int. J. Image Graph. Pub Date : 2021-07-23 DOI:10.1142/S0219467822500383

Rafiqul Islam, Md. Shafiqul Islam, Muhammad Shahin Uddin

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引用次数: 2

Abstract

Magnetic resonance imaging (MRI) is a dynamic and safe imaging technique in medical imaging. Recently, parallel MRI (pMRI) is widely used for accelerating conventional MRI. Both frequency and image domain-based reconstructions are the most attractive methods for generating the image from multi-channel k-space data. Compressed sensing (CS) is a recently used procedure to reduce the acquisition time of conventional MRI. This reduction is achieved by taking fewer measurements from the fully sampled k-space data. Therefore, applying the CS technique in pMRI is the most emerging way for further improving the acquisition time that is a tremendous research interest. However, as the phase encoding plane may be perpendicular or parallel to the coil elements plane, finding the exact domain for CS in pMRI reconstruction is a major challenging issue. In this work, the application of the CS technique in pMRI in both domains is investigated. Later some widely used methodologies are presented as the nonlinear reconstruction algorithm of CS in pMRI. Finally, a discussion is performed based on CS in pMRI to perceive the reality of different reconstruction algorithms at a glance for finding preferred methodologies.

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并行MRI压缩感知研究进展

磁共振成像(MRI)是一种动态、安全的医学成像技术。近年来，平行核磁共振(pMRI)被广泛用于加速常规核磁共振。频率重构和基于图像域的重构是多通道k空间数据生成图像的最具吸引力的方法。压缩感知(CS)是近年来常用的一种减少常规MRI采集时间的方法。这种减少是通过从完全采样的k空间数据中采取更少的测量来实现的。因此，在pMRI中应用CS技术是进一步提高采集时间的最新途径，也是一个巨大的研究热点。然而，由于相位编码平面可能与线圈元件平面垂直或平行，因此在pMRI重建中找到CS的精确域是一个主要的挑战问题。在这项工作中，CS技术在pMRI在这两个领域的应用进行了研究。随后提出了一些被广泛应用的方法，如pMRI中CS的非线性重建算法。最后，基于pMRI中的CS进行了讨论，以便一目了然地了解不同重建算法的现实情况，以找到首选的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Int. J. Image Graph.

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