Autocalibrating and Calibrationless Parallel Magnetic Resonance Imaging as a Bilinear Inverse Problem

机译：作为双线性逆问题的自递形和横向平行的磁共振成像

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Modern reconstruction methods for magnetic resonance imaging (MRI) exploit the spatially varying sensitivity profiles of receive-coil arrays as additional source of information. This allows to reduce the number of time-consuming Fourierencoding steps by undersampling. The receive sensitivities are a priori unknown and influenced by geometry and electric properties of the (moving) subject. For optimal results, they need to be estimated jointly with the image from the same undersampled measurement data. Formulated as an inverse problem, this leads to a bilinear reconstruction problem related to multi-channel blind deconvolution. In this work, we will discuss some recently developed approaches for the solution of this problem.

机译：用于磁共振成像（MRI）的现代重建方法利用接收线圈阵列的空间变化的灵敏度曲线作为额外的信息来源。这允许通过under采样来减少耗时的耗时的次数步骤。接收敏感性是先验未知的并且受（移动）对象的几何形状和电性能影响。为了获得最佳结果，需要与图像与图像相同的下采样数据共同估计。制定作为逆问题，这导致与多通道盲折叠有关的双线性重建问题。在这项工作中，我们将讨论一些最近开发的解决问题的方法。

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《International Conference on Sampling Theory and Applications》|2017年|689p|共3页
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作者
Martin Uecker;
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中图分类 TN91-53;
关键词
Magnetic resonance imaging; Compressed sensing; Nonuniform sampling; Image reconstruction; Calibration;

机译：磁共振成像;压缩感应;非均匀采样;图像重建;校准;
入库时间 2022-08-20 23:20:54

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专利

1. Novel reconstruction method for three-dimensional axial continuously moving table whole-body magnetic resonance imaging featuring autocalibrated parallel imaging GRAPPA. [J] . Zenge MO, Ladd ME, Quick HH Magnetic resonance in medicine: official journal of the Society of Magnetic Resonance in Medicine . 2009,第4期

机译：具有自动校准的平行成像GRAPPA的三维轴向连续移动工作台全身磁共振成像的新型重建方法。
2. Compressed sensing regularized calibrationless parallel magnetic resonance imaging via deep learning [J] . Islam Sheikh Rafiul, Maity Santi P., Ray Ajoy Kumar Biomedical signal processing and control . 2021,第Apra期

机译：深入学习压缩检测正则滤网/平行磁共振成像
3. A Two-Stage Low Rank Approach for Calibrationless Dynamic Parallel Magnetic Resonance Image Reconstruction [J] . Hou Likun, Gao Hao, Zhang Xiaoqun Journal of Scientific Computing . 2016,第3期

机译：无校正动态并行磁共振图像重建的两阶段低秩方法
4. Autocalibrating and Calibrationless Parallel Magnetic Resonance Imaging as a Bilinear Inverse Problem [C] . Martin Uecker International Conference on Sampling Theory and Applications . 2017

机译：作为双线性逆问题的自递形和横向平行的磁共振成像
5. Signal processing techniques for improving image reconstruction of parallel Magnetic Resonance Imaging and dynamic Magnetic Resonance Imaging [D] . She, Huajun 2015

机译：用于改善并行磁共振成像和动态磁共振成像的图像重建的信号处理技术
6. Calibrationless Parallel Magnetic Resonance Imaging: A Joint Sparsity Model [O] . Angshul Majumdar, Kunal Narayan Chaudhury, Rabab Ward 2013

机译：无标定并行磁共振成像：联合稀疏模型
7. Autocalibrating and Calibrationless Parallel Magnetic Resonance Imaging as a Bilinear Inverse Problem [O] . Uecker, Martin 2017

机译：自动校准和无校准并行磁共振成像作为双线性反问题

Autocalibrating and Calibrationless Parallel Magnetic Resonance Imaging as a Bilinear Inverse Problem

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