基于层次先验的压缩感知MRI稀疏表示

Jianxin Cao, Shujun Liu, Kui Zhang
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引用次数: 0

摘要

压缩感知(CS)允许通过高度欠采样k空间数据加速磁共振成像(MRI)。在一定的变换域内合理利用图像的稀疏性是实现高质量CS-MRI重构的关键。现有的CS-MRI方法通常使用10范数或l1范数来增强图像系数的稀疏性,但缺乏参数自适应。在此工作中,在概率模型下,通过联合最大后验(MAP)估计得到patch级稀疏表示,该模型采用分层先验来表征稀疏图像系数。采用乘法器交替方向法(ADMM)对相应的图像重建模型进行了有效优化。仿真结果表明,该方法比竞争对手的CS-MRI方法具有更高的重建性能,并且优于一般基于Ip范数的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hierarchical prior based sparse representation for compressed sensing MRI
Compressed sensing (CS) allows accelerated magnetic resonance imaging (MRI) by highly undersampling k-space data. The key to high quality CS-MRI reconstruction is rational utilization of the sparsity of image in a certain transform domain. Existing CS-MRI methods commonly uses l0 norm or l1 norm to enforce the sparsity of image coefficients but lack parameter adaptation. In this work, a patch level sparse representation is derived from the joint maximum a posteriori (MAP) estimation under a probabilistic model, which adopts a hierarchical prior to characterize sparse image coefficients. The corresponding image reconstruction model is efficiently optimized by alternating direction method of multipliers (ADMM). Simulation results reveal that the proposed approach achieves higher reconstruction performance than competing CS-MRI methods, and is proven to be superior to general Ip norm based methods.
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