Toward a scalable framework for reproducible processing of volumetric, nanoscale neuroimaging datasets | Zendy

Erik C. Johnson | Zendy; Miller Wilt | Zendy; Luis M. Rodríguez | Zendy; Raphael Norman-Tenazas | Zendy; Corban G. Rivera | Zendy; Nathan Drenkow | Zendy; Dean M. Kleissas | Zendy; Theodore J. LaGrow | Zendy; Hannah Cowley | Zendy; Joseph Downs | Zendy; Jordan Matelsky | Zendy; Marisa Hughes | Zendy; Elizabeth P. Reilly | Zendy; Brock A. Wester | Zendy; Eva L. Dyer | Zendy; Konrad P. Körding | Zendy; William R. Gray-Roncal | Zendy

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Toward a scalable framework for reproducible processing of volumetric, nanoscale neuroimaging datasets

Author(s) -

Erik C. Johnson,

Miller Wilt,

Luis M. Rodríguez,

Raphael Norman-Tenazas,

Corban G. Rivera,

Nathan Drenkow,

Dean M. Kleissas,

Theodore J. LaGrow,

Hannah Cowley,

Joseph Downs,

Jordan Matelsky,

Marisa Hughes,

Elizabeth P. Reilly,

Brock A. Wester,

Eva L. Dyer,

Konrad P. Körding,

William R. Gray-Roncal

Publication year - 2020

Publication title -

gigascience

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.947

H-Index - 54

ISSN - 2047-217X

DOI - 10.1093/gigascience/giaa147

Subject(s) - neuroimaging , computer science , workflow , scalability , data science , neuroinformatics , connectomics , petabyte , artificial intelligence , connectome , data mining , big data , neuroscience , database , functional connectivity , biology

Emerging neuroimaging datasets (collected with imaging techniques such as electron microscopy, optical microscopy, or X-ray microtomography) describe the location and properties of neurons and their connections at unprecedented scale, promising new ways of understanding the brain. These modern imaging techniques used to interrogate the brain can quickly accumulate gigabytes to petabytes of structural brain imaging data. Unfortunately, many neuroscience laboratories lack the computational resources to work with datasets of this size: computer vision tools are often not portable or scalable, and there is considerable difficulty in reproducing results or extending methods.

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