Cortical brain imaging by adaptive filtering of NIRS signals

AqilM.; HongK.-S.; JeongM.-Y.; GeS.S.

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Cortical brain imaging by adaptive filtering of NIRS signals

机译：通过自适应过滤NIRS信号进行皮层大脑成像

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This paper presents an online brain imaging framework for cognitive tasks conducted with functional near-infrared spectroscopy (fNIRS). The measured signal at each channel is regarded as the output from a linear system with unknown coefficients. The unknown coefficients are estimated by using the recursive least squares estimation (RLSE) method. The validity of the estimated parameters is tested using the . t-statistics. Contrary to the classical approach that is offline and applies the same preprocessing scheme to all channels, the proposed RLSE method for a linear model formulation provides an independent robust adaptive process for individual channels. The experiments carried out with two fNIRS instruments (continuous-wave and frequency-domain) have verified the potential of the proposed methodology which can facilitate a prompt medical diagnostics by providing real-time brain activation maps.

机译：本文介绍了使用功能性近红外光谱（fNIRS）进行认知任务的在线大脑成像框架。在每个通道上测得的信号被认为是系数未知的线性系统的输出。通过使用递归最小二乘估计（RLSE）方法估计未知系数。使用来测试估计参数的有效性。 t统计量。与离线且将相同的预处理方案应用于所有通道的经典方法相反，所提出的用于线性模型制定的RLSE方法为各个通道提供了独立的鲁棒自适应过程。使用两种fNIRS仪器（连续波和频域）进行的实验已验证了所提出方法的潜力，该方法可通过提供实时的大脑激活图来促进迅速的医学诊断。

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《Neuroscience Letters: An International Multidisciplinary Journal Devoted to the Rapid Publication of Basic Research in the Brain Sciences》 |2012年第1期|共7页
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AqilM.; HongK.-S.; JeongM.-Y.; GeS.S.;
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Functional near-infrared spectroscopy; General linear model; Optical brain imaging; Real-time mapping; Recursive least square estimation; Statistical parametric mapping;

机译：功能近红外光谱;通用线性模型;光学脑成像;实时映射;递推最小二乘估计;统计参数映射;

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1. Cortical brain imaging by adaptive filtering of NIRS signals [J] . AqilM., HongK.-S., JeongM.-Y., Neuroscience Letters: An International Multidisciplinary Journal Devoted to the Rapid Publication of Basic Research in the Brain Sciences . 2012,第1期

机译：通过自适应过滤NIRS信号进行皮层大脑成像
2. RLS adaptive filtering for physiological interference reduction in NIRS brain activity measurement: A Monte Carlo study [J] . Zhang Y., Sun J.W., Rolfe P. Physiological measurement . 2012,第6期

机译：RLS自适应滤波可减少NIRS脑活动测量中的生理干扰：蒙特卡洛研究
3. Adaptive filtering to reduce global interference in non-invasive NIRS measures of brain activation: how well and when does it work? [J] . Zhang Q, Strangman GE, Ganis G NeuroImage . 2009,第3期

机译：自适应过滤可减少对非侵入性NIRS脑部激活措施的整体干扰：效果如何以及何时起作用？
4. Realistic Head Model Design and 3D Brain Imaging of NIRS Signals Using Audio Stimuli on Preterm Neonates for Intra-Ventricular Hemorrhage Diagnosis [C] . Marc Fournier, Mahdi Mahmoudzadeh, Kamran Kazemi, International conference on medical image computing and computer assisted intervention . 2012

机译：使用早产儿音频刺激对NIRS信号进行逼真的头部模型设计和NIRS信号的3D脑成像，以进行脑室内出血诊断
5. Use of operator theory and sub-band filters in the analysis and encoding of signals and images [D] . Gui, Le 2009

机译：运算符理论和子带滤波器在信号和图像的分析和编码中的使用
6. Adaptive filtering to reduce global interference in non-invasive NIRS measures of brain activation: How well and when does it work? [O] . Quan Zhang, Gary E. Strangman, Giorgio Ganis -1

机译：自适应过滤可减少对无创NIRS脑部激活措施的整体干扰：效果如何以及何时起作用？
7. Adaptive filtering to reduce global interference in non-invasive NIRS measures of brain activation: How well and when does it work? [O] . Quan Zhang, Gary E. Strangman, Giorgio Ganis 2009

机译：自适应过滤，以减少脑激活的非侵入性NIR测量的全局干扰：它有多好，何时工作？
8. Cortical Adaptive Filtering in Bioacoustic Signal Classification [R] . Weinberger, N. M. 1993

机译：生物声信号分类中的皮层自适应滤波

Cortical brain imaging by adaptive filtering of NIRS signals

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