文件夹 PATH 列表
卷序列号为 00000200 289D:DC37
F:.
│ +Adaptive Filtering for
Removing Nonstationary Physiological Noise from Resting State fMRI BOLD Signals
.pdf.lnk
│ +Effect of Temporal Autocorrelation Due to Physiological Noise
and Stimulus Paradigm on Voxel-Level False-Positive Rates in fMRI .pdf
│
+Effects of model-based physiological noise correction on default mode network
anti-correlations and correlations.pdf
│ 1.txt
│ A CCA+ICA based model
for multi-task brain imaging data fusion and its application to
schizophrenia.pdf
│ A comment on the severity of the effects of non-white
noise in .pdf
│ A Component Based Noise Correction Method (CompCor) for BOLD
and Perfusion Based fMRI.pdf
│ A kernel machine-based fMRI physiological
noise removal method.pdf
│ Adaptive analysis of fMRI data.pdf
│ Advances
and pitfalls in the analysis and interpretation of resting-state FMRI data
.pdf
│ An improved approach to detection of amplitude of lowfrequency
fluctuation (ALFF) for resting-state fMRI Fractional.pdf
│ An iterative
subspace denoising algorithm for removing electroencephalogram ocular
artifacts.pdf
│ Anatomical and Functional Assemblies of Brain BOLD .pdf
│
Artefact Detection in FMRI Data using Independent Component Analysis.pdf
│
Automatic denoising of functional MRI data Combining independent component
analysis and hierarchical fusion of classifiers.pdf
│ Automatic
Physiological Waveform Processing for fMRI Noise Correction and
Analysis.pdf
│ baseline drift and physiological noise removal in high field
fmri data using kernel pca.pdf
│ Classification of fMRI independent
components using IC-fingerprints and support vector machine classifiers.pdf
│
Colored Noise and Computational Inference in Neurophysiological fMRI Time
Series Analysis Resampling Methods in Time and Wavelet Domains .pdf
│
Comparison of Detrending Methods for Optimal fMRI Preprocessing .pdf
│
Comparison of Filtering Methods for fMRI Datasets.pdf
│ Comparison of two
exploratory data analysis methods for fMRI fuzzy clustering vs. principal
component analysis .pdf
│ Correction of low-frequency physiological noise
from the resting state BOLD fMRI—Effect on ICA default mode analysis at 1.5
T.pdf
│ correction of structured noise in fmri using spatial independent
component analysis corsica.pdf
│ Correction of the Low-Frequency
Physiological Noise in the Resting State BOLD fMRI - Effect on the ICA
Default-Mode Analysis at 1.5T .pdf
│ Correlations Between Cardiac Data and
f’MRI Data as a Function of Spatial Frequency and Time.pdf
│ Correspondence
of the brain’s functional architecture during activation and rest .pdf
│
CORSICA Correction of structured noise in fMRI by automatic dentification of ICA
components.pdf
│ Dependencies between stimuli and spatially independent fMRI
sources Towards brain correlates of natural stimuli.pdf
│ Detecting
functional connectivity in the resting brain a comparison between ICA and
CCA.pdf
│ Detecting periodicity in experimental data using linear modeling
techniques.pdf
│ Detection of Neural Activity in Functional MRI Using
CCA.pdf
│ Effect of Temporal Autocorrelation Due to Physiological Noise and
Stimulus Paradigm on Voxel-Level False-Positive Rates in fMRI .pdf
│ Effect
of Temporal Autocorrelation Due to Physiological Noise and Stimulus Paradigm on
Voxel-Level False-Positive Rates in fMRI.pdf
│ Estimation and Removal of
Physiological Noise from Undersampled Multi-slice fMRI data in Image
Space.pdf
│ Extending Local Canonical Correlation Analysis to Handle General
Linear Contrasts for fMRI Data.pdf
│ fast dependent components for fmri
analysis .pdf
│ FMRI Artifacts Reduction using Bayesian Image Processing
.pdf
│ Frequencies Contributing to Functional Connectivity in the Cerebral
Cortex in Resting-state Data .pdf
│ Functional Connectivity as Revealed by
Spatial Independent Component Analysis of fMRI Measurements During Rest.pdf
│
Identification and Attenuation of Physiological Noise in fMRI Using Kernel T
echniques.pdf
│ Impact of Signal-to-Noise on Functional MRI .pdf
│
Improving the spatial specificity of canonical correlation analysis in
fMRI.pdf
│ Independent component analysis of functional MRI what is signal
and what is noise.pdf
│ Independent component analysis of nondeterministic
fMRI signal sources.pdf
│ Intrinsic Functional Connectivity As a Tool For
Human Connectomics_ Theory, Properties, and Optimization.pdf
│ Investigation
of Low Frequency Drift in fMRI Signal.pdf
│ Investigations into
resting-state connectivity using independent component analysis .pdf
│ Joint
image denoising using adaptive principal component analysis and
self-similarity.pdf
│ Low Frequency Fluctuations in the Cardiac Rate as a
Source of Variance in the Resting-State fMRI BOLD Signal.pdf
│ Mapping the
MRI Voxel Volume in Which Thermal Noise Matches .pdf
│ Measuring temporal
dynamics of functional networks using phase spectrum of fMRI data .pdf
│
Multiresolution Analysis in fMRI Sensitivity and Specificity in the Detection of
Brain Activation .pdf
│ Multiresolution Analysis in fMRI Sensitivity and
Specificity in the Detection of Brain Activation.pdf
│ Multivariate fMRI
Analysis using Canonical Correlation Analysis instead of Classifiers,Comment on
Todd et al..pdf
│ Noise during Rest Enables the Exploration of the Brain’s
Dynamic Repertoire.pdf
│ Noise reduction in BOLD-based fMRI using component
analysis.pdf
│ Noise suppression of FMRI time-series in wavelet
domain..pdf
│ Non-white noise in fMRI does modelling have an impact.pdf
│
Nonparametric suppression of random and physiological noise components in
functional magnetic resonance imaging using cross-correlation spectrum
subtraction.pdf
│ On Multivariate Spectral Analysis of fMRI Time
Series.pdf
│ Performance comparison of machine learning algorithms and
number of independent components used in fMRI decoding of belief vs.
disbelief.pdf
│ PHYCAA An optimized, adaptive procedure for measuring and
controlling physiological noise in BOLD fMRI.pdf
│ Physiological noise
reduction for arterial spin labeling functional MRI .pdf
│ Power Spectrum
Ranked Independent Component Analysis of a Periodic fMRI Complex Motor Paradigm
.pdf
│ Preprocessing fMRI data under correct Rice conditions.pdf
│
Probabilistic Independent Component Analysis for Functional Magnetic Resonance
Imaging .pdf
│ Quantitative evaluation of interrelations between spontaneous
low-frequency oscillations in cerebral hemodynamics and systemic cardiovascular
dynamics .pdf
│ Relation of cognitive reserve and task performance to
expression of regional covariance networks in an event-related fMRI study of
nonverbal memory .pdf
│ Restricted Canonical Correlation Analysis in
Functional MRI—Validation and a Novel Thresholding Technique.pdf
│ Review of
methods for functional brain connectivity detection using fMRI.pdf
│
Scale-free and multifractal time dynamics of fMRI signals during rest and
task.pdf
│ Semi-blind ICA of fMRI a method for utilizing hypothesis-derived
time courses in a spatial ICA analysis.pdf
│ Separating
respiratory-variation-related fluctuations from neuronal-activity-related
fluctuations in fMRI .pdf
│ Signal and noise characteristics of Hahn SE and
GE BOLD fMRI at 7 T in humans .pdf
│ Simulation of Human Respiration in fMRI
With a Mechanical Model.pdf
│ SINGULAR SPECTRUM ANALYSIS AND ADAPTIVE
FILTERING ENHANCE THE FUNCTIONAL CONNECTIVITY ANALYSIS OF RESTING STATE fMRI
DATA.pdf
│ Spatial and Temporal Independent Component Analysis of
Functional MRI Data Containing a Pair of Task-Related Waveforms.pdf
│
Spatiotemporal nonlinearity in resting-state fMRI of the human brain.pdf
│
statistical hypothesis testing with time-frequency surrogates to check signal
stationarity.pdf
│ Temporal Autocorrelation in Univariate Linear Modeling of
FMRI Data .pdf
│ Testing Stationarity With Surrogates A Time-Frequency
Approach.pdf
│ The human brain is intrinsically organized into dynamic,
anticorrelated functional networks .pdf
│ The impact of physiological noise
correction on fMRI at 7T .PDF
│ To Smooth or Not to Smooth. Bias and
Ef?ciency in fMRI Time-Series Analysis .pdf
│ ~$Automatic Physiological
Waveform Processing for fMRI Noise Correction and Analysis.pdf
│
原文:http://www.cnblogs.com/haore147/p/3675546.html