Decoding Time-Varying Functional Connectivity Networks via Linear Graph Embedding Methods

机译：通过线性图嵌入方法解码时变功能连接网络

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摘要

An exciting avenue of neuroscientific research involves quantifying the time-varying properties of functional connectivity networks. As a result, many methods have been proposed to estimate the dynamic properties of such networks. However, one of the challenges associated with such methods involves the interpretation and visualization of high-dimensional, dynamic networks. In this work, we employ graph embedding algorithms to provide low-dimensional vector representations of networks, thus facilitating traditional objectives such as visualization, interpretation and classification. We focus on linear graph embedding methods based on principal component analysis and regularized linear discriminant analysis. The proposed graph embedding methods are validated through a series of simulations and applied to fMRI data from the Human Connectome Project.

机译：神经科学研究的一个令人兴奋的途径涉及量化功能连接网络的时变特性。结果，已经提出了许多方法来估计这种网络的动态特性。然而，与这种方法相关的挑战之一涉及高维动态网络的解释和可视化。在这项工作中，我们采用图嵌入算法来提供网络的低维向量表示，从而促进了诸如可视化，解释和分类等传统目标。我们专注于基于主成分分析和正则化线性判别分析的线性图嵌入方法。所提出的图形嵌入方法通过一系列模拟进行了验证，并应用于来自Human Connectome Project的fMRI数据。

著录项

期刊名称 Frontiers in Computational Neuroscience
作者
Ricardo P. Monti; Romy Lorenz; Peter Hellyer; Robert Leech; Christoforos Anagnostopoulos; Giovanni Montana;
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作者单位

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年(卷),期 2017(11),-1
年度 2017
页码 14
总页数 12
原文格式 PDF
正文语种
中图分类神经科学;
关键词
dynamic networks graph embedding functional connectivity brain decoding visualization;

机译：动态网络;图形嵌入;功能连接;大脑解码;可视化;

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专利

1. Decoding Time-Varying Functional Connectivity Networks via Linear Graph Embedding Methods [J] . Monti, Ricardo P. Frontiers in Computational Neuroscience . 2017,第3期

机译：通过线性图嵌入方法解码时变功能连接网络
2. Time-constrained functional connectivity analysis of cortical networks underlying phonological decoding in typically developing school-aged children: A magnetoencephalography study [J] . SimosP.G., RezaieR., FletcherJ.M., Brain and language . 2013,第2期

机译：典型发育中的学龄儿童的语音解码基础的皮质网络的时间受限功能连通性分析：一项脑磁图研究
3. Dynamical Graph Theory Networks Methods for the Analysis of Sparse Functional Connectivity Networks and for Determining Pinning Observability in Brain Networks [J] . Meyer-B?se, Anke Frontiers in Computational Neuroscience . 2017,第2期

机译：动态图论网络方法用于稀疏功能连接网络的分析和确定大脑网络中钉扎可观察性的方法
4. Low-Dimensional Embedding of Functional Connectivity Graphs for Brain State Decoding [C] . Richiardi Jonas, Van De Ville Dimitri, Eryilmaz Hamdi 2010 First Workshop on Brain Decoding: Pattern Recognition Challenges in Neuroimaging . 2010

机译：用于大脑状态解码的功能连接图的低维嵌入
5. Novel Image-Derived Component Discovery Method for Graph-Based Functional Connectivity Features from Resting-State Brain Networks [D] . Moradi, Mahdi. 2020

机译：休息状态大脑网络的基于图形功能连接功能的新型图像派生组件发现方法
6. Time-constrained functional connectivity analysis of cortical networks underlying phonological decoding in typically developing school-aged children: A magnetoencephalography study [O] . Panagiotis G. Simos, Roozbeh Rezaie, Jack M. Fletcher, -1

机译：在典型发展学龄儿童中语音解码潜在语音解码的时间约束功能连通性分析：磁性脑图研究
7. Decoding Time-Varying Functional Connectivity Networks via Linear Graph Embedding Methods [O] . Ricardo P. Monti, Romy Lorenz, Peter Hellyer, 2017

机译：用线性图嵌入方法解码时变功能连接网络
8. Weighted Phase Lag Index (WPLI) as a Method for Identifying Task- Related Functional Networks in Electroencephalography (EEG) Recordings during a Shooting Task. [R] . Rawal, S. 2011

机译：加权相位滞后指数（WpLI）作为在射击任务期间识别脑电图（EEG）记录中的任务相关功能网络的方法。

Decoding Time-Varying Functional Connectivity Networks via Linear Graph Embedding Methods

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