Multi-dimensional connectivity: a conceptual and mathematical review
The estimation of functional connectivity between regions of the brain, for example based on statistical dependencies between the time series of activity in each region, has become increasingly important in neuroimaging. Typically, multiple time series (e.g. from each voxel in fMRI data) are first r...
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2020-11-01
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| Series: | NeuroImage |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S1053811920306650 |
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doaj-d9752186cb454931b31084ccb1223c942020-12-13T04:18:00ZengElsevierNeuroImage1095-95722020-11-01221117179Multi-dimensional connectivity: a conceptual and mathematical reviewAlessio Basti0Hamed Nili1Olaf Hauk2Laura Marzetti3Richard N. Henson4Department of Neuroscience, Imaging and Clinical Sciences, University of Chieti-Pescara, Italy; Institute for Advanced Biomedical Technologies, University of Chieti-Pescara, ItalyWellcome Centre for Integrative Neuroimaging, University of Oxford, United Kingdom; Corresponding author.Medical Research Council Cognition and Brain Sciences Unit, University of Cambridge, United KingdomDepartment of Neuroscience, Imaging and Clinical Sciences, University of Chieti-Pescara, Italy; Institute for Advanced Biomedical Technologies, University of Chieti-Pescara, ItalyMedical Research Council Cognition and Brain Sciences Unit, University of Cambridge, United Kingdom; Department of Psychiatry, University of Cambridge, United KingdomThe estimation of functional connectivity between regions of the brain, for example based on statistical dependencies between the time series of activity in each region, has become increasingly important in neuroimaging. Typically, multiple time series (e.g. from each voxel in fMRI data) are first reduced to a single time series that summarises the activity in a region of interest, e.g. by averaging across voxels or by taking the first principal component; an approach we call one-dimensional connectivity. However, this summary approach ignores potential multi-dimensional connectivity between two regions, and a number of recent methods have been proposed to capture such complex dependencies. Here we review the most common multi-dimensional connectivity methods, from an intuitive perspective, from a formal (mathematical) point of view, and through a number of simulated and real (fMRI and MEG) data examples that illustrate the strengths and weaknesses of each method. The paper is accompanied with both functions and scripts, which implement each method and reproduce all the examples.http://www.sciencedirect.com/science/article/pii/S1053811920306650 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Alessio Basti Hamed Nili Olaf Hauk Laura Marzetti Richard N. Henson |
| spellingShingle |
Alessio Basti Hamed Nili Olaf Hauk Laura Marzetti Richard N. Henson Multi-dimensional connectivity: a conceptual and mathematical review NeuroImage |
| author_facet |
Alessio Basti Hamed Nili Olaf Hauk Laura Marzetti Richard N. Henson |
| author_sort |
Alessio Basti |
| title |
Multi-dimensional connectivity: a conceptual and mathematical review |
| title_short |
Multi-dimensional connectivity: a conceptual and mathematical review |
| title_full |
Multi-dimensional connectivity: a conceptual and mathematical review |
| title_fullStr |
Multi-dimensional connectivity: a conceptual and mathematical review |
| title_full_unstemmed |
Multi-dimensional connectivity: a conceptual and mathematical review |
| title_sort |
multi-dimensional connectivity: a conceptual and mathematical review |
| publisher |
Elsevier |
| series |
NeuroImage |
| issn |
1095-9572 |
| publishDate |
2020-11-01 |
| description |
The estimation of functional connectivity between regions of the brain, for example based on statistical dependencies between the time series of activity in each region, has become increasingly important in neuroimaging. Typically, multiple time series (e.g. from each voxel in fMRI data) are first reduced to a single time series that summarises the activity in a region of interest, e.g. by averaging across voxels or by taking the first principal component; an approach we call one-dimensional connectivity. However, this summary approach ignores potential multi-dimensional connectivity between two regions, and a number of recent methods have been proposed to capture such complex dependencies. Here we review the most common multi-dimensional connectivity methods, from an intuitive perspective, from a formal (mathematical) point of view, and through a number of simulated and real (fMRI and MEG) data examples that illustrate the strengths and weaknesses of each method. The paper is accompanied with both functions and scripts, which implement each method and reproduce all the examples. |
| url |
http://www.sciencedirect.com/science/article/pii/S1053811920306650 |
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