Source imaging of simple finger movements captured during auditory response tasks using space-time-frequency based sparsity constraints

机译：使用基于时空频率的稀疏约束，在听觉响应任务中捕获的简单手指运动的源图像

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Neural Information Flow during simple cognitive or motor actions is a significant research topic; one of which is a simple finger movement. In this paper, Electro-encephalograph (EEG) Source Imaging has been used to model the Neural Information flow, during performance of a simple Auditory Response Task (ART), specifically by employment of a space-time-frequency sparsity constrained based algorithm, namely, Spatio-temporal Unifying Tomography (STOUT). The estimated sources are then studied according to location defined based on Destrieux atlas. Then, relative power carried in each scout at each instant has been used to create a neural information flow map, which is then compared with sources computed with standardized low resolution brain electromagnetic tomography (sLORETA).

机译：简单的认知或运动过程中的神经信息流是一个重要的研究课题。其中之一是简单的手指运动。在本文中，脑电图（EEG）源成像已用于在执行简单听觉响应任务（ART）的过程中对神经信息流进行建模，特别是通过采用时空频率稀疏性受限的算法，即，时空统一层析成像（STOUT）。然后根据基于Destrieux地图集定义的位置来研究估计的源。然后，每个侦察员在每个瞬间携带的相对功率已用于创建神经信息流图，然后将其与使用标准低分辨率脑电磁层析成像（sLORETA）计算的源进行比较。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2016年|4087-4092|共6页
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Aritra Chaudhuri; Aurobinda Routray;
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Electroencephalography; DC motors; Imaging; Time-frequency analysis; Fingers; Subspace constraints; Brain modeling;

机译：脑电图;直流电动机;成像;时频分析;手指;子空间约束;脑模型;

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1. Observing repetitive finger movements modulates response times of auditorily cued finger movements [J] . Katja Biermann-Ruben, Melanie Jonas, Klaus Kessler, Brain and cognition . 2008,第1期

机译：观察重复的手指运动可调节听觉提示的手指运动的响应时间
2. Solving the EEG inverse problem based on space-time-frequency structured sparsity constraints [J] . Castano-Candamil Sebastian, Hoehne Johannes, Martinez-Vargas Juan-David, NeuroImage . 2015,第Null期

机译：基于时空结构稀疏约束的脑电逆问题求解
3. Dynamic movement of N100m current sources in auditory evoked fields: comparison of ipsilateral versus contralateral responses in human auditory cortex. [J] . Jin CY, Ozaki I, Suzuki Y, Neuroscience Research: The Official Journal of the Japan Neuroscience Society . 2008,第4期

机译：N100m电流源在听觉诱发区域中的动态运动：人类听觉皮层中同侧和对侧响应的比较。
4. Source imaging of simple finger movements captured during auditory response tasks using space-time-frequency based sparsity constraints [C] . Aritra Chaudhuri, Aurobinda Routray Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2016

机译：使用基于空间频率的稀疏限制在听觉响应任务期间捕获的简单手指运动的源成像
5. A New Image Processing Algorithm for Geological Structure Identification of Rock Slopes Based on Drone-Captured Images [D] . Zhao, Haochen. 2018

机译：基于无人机捕获图像的岩质边坡地质结构识别新图像处理算法
6. Sparse Cortical Current Density Imaging in Motor Potentials Induced by Finger Movement [O] . Lei Ding, Ying Ni, John Sweeney, -1

机译：用手指运动引起的电机电位稀疏皮质电流密度成像
7. Observing repetitive finger movements modulates response times of auditorily cued finger movements [O] . Biermann-Ruben, Katja, Jonas, Melanie, Kessler, Klaus, 2008

机译：观察重复的手指运动可调节听觉提示的手指运动的响应时间

Source imaging of simple finger movements captured during auditory response tasks using space-time-frequency based sparsity constraints

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