date: 2016-10-31T10:30:12Z pdf:PDFVersion: 1.5 pdf:docinfo:title: Structure and Topology Dynamics of Hyper-Frequency Networks during Rest and Auditory Oddball Performance xmp:CreatorTool: LaTeX with hyperref package + hypdvips access_permission:can_print_degraded: true subject: Resting-state and task-related recordings are characterized by oscillatory brain activity and widely distributed networks of synchronized oscillatory circuits. language: en dc:format: application/pdf; version=1.5 pdf:docinfo:creator_tool: LaTeX with hyperref package + hypdvips access_permission:fill_in_form: true pdf:encrypted: false dc:title: Structure and Topology Dynamics of Hyper-Frequency Networks during Rest and Auditory Oddball Performance modified: 2016-10-31T10:30:12Z cp:subject: Resting-state and task-related recordings are characterized by oscillatory brain activity and widely distributed networks of synchronized oscillatory circuits. pdf:docinfo:subject: Resting-state and task-related recordings are characterized by oscillatory brain activity and widely distributed networks of synchronized oscillatory circuits. pdf:docinfo:creator: Viktor Müller meta:author: Viktor Müller meta:creation-date: 2016-10-11T12:16:41Z created: 2016-10-11T12:16:41Z access_permission:extract_for_accessibility: true Creation-Date: 2016-10-11T12:16:41Z Author: Viktor Müller producer: dvips + MiKTeX GPL Ghostscript 9.0 pdf:docinfo:producer: dvips + MiKTeX GPL Ghostscript 9.0 pdf:unmappedUnicodeCharsPerPage: 0 dc:description: Resting-state and task-related recordings are characterized by oscillatory brain activity and widely distributed networks of synchronized oscillatory circuits. Keywords: functional connectivity, directional coupling, hyper-frequency network, network topology dynamics, graph-theoretical approach, resting state, auditory oddball performance access_permission:modify_annotations: true dc:creator: Viktor Müller description: Resting-state and task-related recordings are characterized by oscillatory brain activity and widely distributed networks of synchronized oscillatory circuits. dcterms:created: 2016-10-11T12:16:41Z Last-Modified: 2016-10-31T10:30:12Z dcterms:modified: 2016-10-31T10:30:12Z title: Structure and Topology Dynamics of Hyper-Frequency Networks during Rest and Auditory Oddball Performance xmpMM:DocumentID: 10dbb49a-9208-11e6-0000-7ae71fb935e7 Last-Save-Date: 2016-10-31T10:30:12Z pdf:docinfo:keywords: functional connectivity, directional coupling, hyper-frequency network, network topology dynamics, graph-theoretical approach, resting state, auditory oddball performance pdf:docinfo:modified: 2016-10-31T10:30:12Z meta:save-date: 2016-10-31T10:30:12Z Content-Type: application/pdf X-Parsed-By: org.apache.tika.parser.DefaultParser creator: Viktor Müller dc:language: en dc:subject: functional connectivity, directional coupling, hyper-frequency network, network topology dynamics, graph-theoretical approach, resting state, auditory oddball performance access_permission:assemble_document: true xmpTPg:NPages: 25 pdf:charsPerPage: 3120 access_permission:extract_content: true access_permission:can_print: true meta:keyword: functional connectivity, directional coupling, hyper-frequency network, network topology dynamics, graph-theoretical approach, resting state, auditory oddball performance access_permission:can_modify: true pdf:docinfo:created: 2016-10-11T12:16:41Z