A hierarchy of intrinsic timescales across primate cortex

被引:0
|
作者
John D Murray
Alberto Bernacchia
David J Freedman
Ranulfo Romo
Jonathan D Wallis
Xinying Cai
Camillo Padoa-Schioppa
Tatiana Pasternak
Hyojung Seo
Daeyeol Lee
Xiao-Jing Wang
机构
[1] Center for Neural Science,Department of Neurobiology
[2] New York University,Department of Neurobiology
[3] Yale University School of Medicine,Department of Psychology
[4] School of Engineering and Science,Department of Anatomy and Neurobiology
[5] Jacobs University,Department of Neurobiology and Anatomy
[6] The University of Chicago,undefined
[7] Instituto de Fisiología Celular,undefined
[8] Universidad Nacional Autónoma de México,undefined
[9] El Colegio Nacional,undefined
[10] Helen Wills Neuroscience Institute,undefined
[11] University of California,undefined
[12] Berkeley,undefined
[13] Berkeley,undefined
[14] California,undefined
[15] USA.,undefined
[16] University of California,undefined
[17] Berkeley,undefined
[18] Berkeley,undefined
[19] California,undefined
[20] USA.,undefined
[21] NYU-ECNU Institute of Brain and Cognitive Science,undefined
[22] NYU Shanghai,undefined
[23] Washington University in St. Louis,undefined
[24] University of Rochester,undefined
[25] Center for Visual Science,undefined
[26] University of Rochester,undefined
来源
Nature Neuroscience | 2014年 / 17卷
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摘要
Primate cortex can be organized with specialization and hierarchical principles, but presently there is little evidence for how it is organized temporally. Across six separate datasets, the authors find a hierarchical ordering of intrinsic fluctuation of spiking activity, with timescales that increase from sensory to prefrontal areas.
引用
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页码:1661 / 1663
页数:2
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