Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRI

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Bibliographic Details
Main Authors: Wonseok Whi, Seunggyun Ha, Hyejin Kang, Dong Soo Lee
Format: Article
Language:English
Published: The MIT Press 2022-07-01
Series:Harvard Data Science Review
Online Access:http://dx.doi.org/10.1162/netn_a_00243
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author Wonseok Whi
Seunggyun Ha
Hyejin Kang
Dong Soo Lee
author_facet Wonseok Whi
Seunggyun Ha
Hyejin Kang
Dong Soo Lee
author_sort Wonseok Whi
collection DOAJ
format Article
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institution Kabale University
issn 2644-2353
language English
publishDate 2022-07-01
publisher The MIT Press
record_format Article
series Harvard Data Science Review
spelling doaj-art-9903ab79a6af49eea5f44d16a229faf12024-12-09T20:14:06ZengThe MIT PressHarvard Data Science Review2644-23532022-07-016310.1162/netn_a_00243Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRIWonseok WhiSeunggyun HaHyejin KangDong Soo Leehttp://dx.doi.org/10.1162/netn_a_00243
spellingShingle Wonseok Whi
Seunggyun Ha
Hyejin Kang
Dong Soo Lee
Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRI
Harvard Data Science Review
title Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRI
title_full Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRI
title_fullStr Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRI
title_full_unstemmed Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRI
title_short Hyperbolic disc embedding of functional human brain connectomes using resting-state fMRI
title_sort hyperbolic disc embedding of functional human brain connectomes using resting state fmri
url http://dx.doi.org/10.1162/netn_a_00243
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AT seunggyunha hyperbolicdiscembeddingoffunctionalhumanbrainconnectomesusingrestingstatefmri
AT hyejinkang hyperbolicdiscembeddingoffunctionalhumanbrainconnectomesusingrestingstatefmri
AT dongsoolee hyperbolicdiscembeddingoffunctionalhumanbrainconnectomesusingrestingstatefmri