This paper describes a new methodology and associated theoretical analysis for rapid and accurate extraction of activation regions from functional MRI data. Most fMRI data analysis methods in use today adopt a hypothesis testing approach, in which the BOLD signals in individual voxels or clusters of voxels are compared to a threshold. In order to obtain statistically meaningful results, the testing must be limited to very small numbers of voxels/clusters or the threshold must be set extremely high. Furthermore, voxelization introduces partial volume effects (PVE), which present a persistent error in the localization of activity that no testing procedure can overcome. We abandon the multiple hypothesis testing approach in this paper, and ins...
An ever-increasing number of functional magnetic resonance imaging (fMRI) studies are now using info...
Event-related fMRI is a powerful tool for localising psychological functions to specific brain areas...
fMRI localizer tasks are often used to define subject specific functional regions of interest (fROIs...
Single-subject fMRI experiments identify active voxels by performing individual voxelwise tests of t...
In fMRI, localizer tasks are often used to define and examine the activity of functional regions of ...
Abstract: Many fMRI experiments have a common objective of identifying active voxels in a neuroi-mag...
Background: To increase power when analyzing fMRI data, researchers often define functional regions ...
An important issue in the analysis of fMRI is how to account for the spatial smoothness of activated...
In fMRI research, one often aims to examine activation in specific functional regions of interest (f...
The conventional fMRI image analysis approach to associating stimuli to brain activation is performe...
In functional magnetic resonance imaging, voxel time courses after Fourier "image reconstructio...
fMRI is a non-invasive method that captures brain activity in a sequence of images while par- ticipa...
This paper reviews and compares thresholding methods for identifying active voxels in single-subject...
Functional magnetic reasonance imaging (fMRI) plays an important role in pre-surgical planning for p...
Conventional analysis of functional magnetic resonance imaging (fmri) time series is based on univar...
An ever-increasing number of functional magnetic resonance imaging (fMRI) studies are now using info...
Event-related fMRI is a powerful tool for localising psychological functions to specific brain areas...
fMRI localizer tasks are often used to define subject specific functional regions of interest (fROIs...
Single-subject fMRI experiments identify active voxels by performing individual voxelwise tests of t...
In fMRI, localizer tasks are often used to define and examine the activity of functional regions of ...
Abstract: Many fMRI experiments have a common objective of identifying active voxels in a neuroi-mag...
Background: To increase power when analyzing fMRI data, researchers often define functional regions ...
An important issue in the analysis of fMRI is how to account for the spatial smoothness of activated...
In fMRI research, one often aims to examine activation in specific functional regions of interest (f...
The conventional fMRI image analysis approach to associating stimuli to brain activation is performe...
In functional magnetic resonance imaging, voxel time courses after Fourier "image reconstructio...
fMRI is a non-invasive method that captures brain activity in a sequence of images while par- ticipa...
This paper reviews and compares thresholding methods for identifying active voxels in single-subject...
Functional magnetic reasonance imaging (fMRI) plays an important role in pre-surgical planning for p...
Conventional analysis of functional magnetic resonance imaging (fmri) time series is based on univar...
An ever-increasing number of functional magnetic resonance imaging (fMRI) studies are now using info...
Event-related fMRI is a powerful tool for localising psychological functions to specific brain areas...
fMRI localizer tasks are often used to define subject specific functional regions of interest (fROIs...