用于具有非局部正则化项的断层扫描的乘子交替方向法。

Alternating direction method of multiplier for tomography with nonlocal regularizers.

作者信息

Chun Se Young, Dewaraja Yuni K, Fessler Jeffrey A

出版信息

IEEE Trans Med Imaging. 2014 Oct;33(10):1960-8. doi: 10.1109/TMI.2014.2328660.

DOI:10.1109/TMI.2014.2328660

PMID:25291351

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4465786/

Abstract

The ordered subset expectation maximization (OSEM) algorithm approximates the gradient of a likelihood function using a subset of projections instead of using all projections so that fast image reconstruction is possible for emission and transmission tomography such as SPECT, PET, and CT. However, OSEM does not significantly accelerate reconstruction with computationally expensive regularizers such as patch-based nonlocal (NL) regularizers, because the regularizer gradient is evaluated for every subset. We propose to use variable splitting to separate the likelihood term and the regularizer term for penalized emission tomographic image reconstruction problem and to optimize it using the alternating direction method of multiplier (ADMM). We also propose a fast algorithm to optimize the ADMM parameter based on convergence rate analysis. This new scheme enables more sub-iterations related to the likelihood term. We evaluated our ADMM for 3-D SPECT image reconstruction with a patch-based NL regularizer that uses the Fair potential function. Our proposed ADMM improved the speed of convergence substantially compared to other existing methods such as gradient descent, EM, and OSEM using De Pierro's approach, and the limited-memory Broyden-Fletcher-Goldfarb-Shanno algorithm.

摘要

有序子集期望最大化（OSEM）算法使用投影子集来近似似然函数的梯度，而不是使用所有投影，从而使得发射和透射断层扫描（如单光子发射计算机断层扫描（SPECT）、正电子发射断层扫描（PET）和计算机断层扫描（CT））能够实现快速图像重建。然而，对于计算成本高昂的正则化器（如基于块的非局部（NL）正则化器），OSEM并不能显著加速重建，因为正则化器梯度是针对每个子集进行评估的。我们建议使用变量拆分来分离惩罚发射断层图像重建问题中的似然项和正则化项，并使用乘子交替方向法（ADMM）对其进行优化。我们还基于收敛速率分析提出了一种快速算法来优化ADMM参数。这种新方案能够实现更多与似然项相关的子迭代。我们使用基于Fair势函数的基于块的NL正则化器对3D SPECT图像重建的ADMM进行了评估。与其他现有方法（如梯度下降法、期望最大化（EM）算法、使用De Pierro方法的OSEM算法以及有限内存布罗伊登-弗莱彻-戈德法布-肖诺算法）相比，我们提出的ADMM显著提高了收敛速度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d1e/4465786/68ec883dd973/nihms694994f1.jpg

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