用于跟踪动态fMRI脑网络的l0正则化时变稀疏逆协方差估计。

Zening Fu, Sheng Han, Ao Tan, Yiheng Tu, Zhiguo Zhang
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引用次数: 3

摘要

基于功能磁共振成像(fMRI)数据的时变脑功能连接探索对于理解动态脑机制具有重要意义。l1惩罚逆协方差是一种用于推断功能性脑网络稀疏结构的常用度量,最近已通过使用滑动窗口并结合时间变化的平滑约束将其扩展到估计时变稀疏脑网络。然而,与10惩罚相比,l1惩罚不能诱导出最大的稀疏度,因此10惩罚被认为在逆协方差估计上具有更好的质量。提出了一种基于对偶10 -惩罚(DLP)的时变稀疏反协方差估计方法。新的DLP方法通过最小化一个10惩罚的对数似然函数和一个额外的10惩罚的时间同质性来估计稀疏逆协方差。进一步提出了一种循环下降优化算法,用于定位目标函数的最小值。在模拟信号上的实验结果表明,在不同场景下,DLP方法在估计时变稀疏网络结构方面比传统的11惩罚方法取得了更好的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
L0-regularized time-varying sparse inverse covariance estimation for tracking dynamic fMRI brain networks.
Exploration of time-varying functional brain connectivity based on functional Magnetic Resonance Imaging (fMRI) data is important for understanding dynamic brain mechanisms. l1-penalized inverse covariance is a common measure for the inference of sparse structure of functional brain networks, and it has been recently extended to estimate time-varying sparse brain networks by using a sliding window and incorporating a smoothing constraint on temporal variation. However, l1 penalty cannot induce maximum sparsity, as compared with l0 penalty, so l0 penalty is supposed to have superior quality on inverse covariance estimation. This paper introduces a novel time-varying sparse inverse covariance estimation method based on dual l0-penalties (DLP). The new DLP method estimates the sparse inverse covariance by minimizing an l0-penalized log-likelihood function and an extra l0 penalty on temporal homogeneity. A cyclic descent optimization algorithm is further developed to localize the minimum of the objective function. Experiment results on simulated signals show that the proposed DLP method can achieve better performance than conventional l1-penalized methods in estimating time-varying sparse network structures under different scenarios.
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