Rice-Rayleigh混合料的期望最大化算法及其在MR数据噪声参数估计中的应用

Sankhya. Series B (2008) Pub Date : 2013-11-01 Epub Date: 2013-01-22 DOI:10.1007/s13571-012-0055-y
Ranjan Maitra
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引用次数: 12

摘要

量级磁共振图像是对真实信号的噪声污染测量,在许多应用中对噪声进行评估是很重要的。最近引入的一种方法是,根据至多一个瑞利分量和一个先验的未指定数量的Rice分量的混合,对每个体素的大小MR基准进行建模,所有这些分量都具有共同的噪声参数。提出了期望最大化(EM)算法,以各体素的混合分量隶属度作为缺失观测值进行参数估计。本文通过在估计问题中引入更多缺失的观测值来重新审视EM算法,这样完整的(观察到的和缺失的部分)数据集可以根据正则指数族进行建模。EM算法和方差估计都是相当直接的,不需要任何可能不稳定的数值优化方法。与基于局部邻域和小波的噪声参数估计方法相比,新的基于em的方法不仅在模拟数据集上表现良好,而且在物理幻象和临床成像数据上也表现良好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

On the Expectation-Maximization Algorithm for Rice-Rayleigh Mixtures With Application to Noise Parameter Estimation in Magnitude MR Datasets.

On the Expectation-Maximization Algorithm for Rice-Rayleigh Mixtures With Application to Noise Parameter Estimation in Magnitude MR Datasets.

On the Expectation-Maximization Algorithm for Rice-Rayleigh Mixtures With Application to Noise Parameter Estimation in Magnitude MR Datasets.

Magnitude magnetic resonance (MR) images are noise-contaminated measurements of the true signal, and it is important to assess the noise in many applications. A recently introduced approach models the magnitude MR datum at each voxel in terms of a mixture of upto one Rayleigh and an a priori unspecified number of Rice components, all with a common noise parameter. The Expectation-Maximization (EM) algorithm was developed for parameter estimation, with the mixing component membership of each voxel as the missing observation. This paper revisits the EM algorithm by introducing more missing observations into the estimation problem such that the complete (observed and missing parts) dataset can be modeled in terms of a regular exponential family. Both the EM algorithm and variance estimation are then fairly straightforward without any need for potentially unstable numerical optimization methods. Compared to local neighborhood- and wavelet-based noise-parameter estimation methods, the new EM-based approach is seen to perform well not only on simulation datasets but also on physical phantom and clinical imaging data.

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