date: 2019-06-11T13:26:43Z
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pdf:docinfo:title: Lifespan Changes in Network Structure and Network Topology Dynamics During Rest and Auditory Oddball Performance
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subject: Behavioral and physiological evidence suggests that developmental changes lead to enhanced cortical differentiation and integration through maturation and learning, and that senescent changes during aging result in dedifferentiation and reduced cortical specialization of neural cell assemblies.
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dc:title: Lifespan Changes in Network Structure and Network Topology Dynamics During Rest and Auditory Oddball Performance
modified: 2019-06-11T13:26:43Z
cp:subject: Behavioral and physiological evidence suggests that developmental changes lead to enhanced cortical differentiation and integration through maturation and learning, and that senescent changes during aging result in dedifferentiation and reduced cortical specialization of neural cell assemblies.
pdf:docinfo:subject: Behavioral and physiological evidence suggests that developmental changes lead to enhanced cortical differentiation and integration through maturation and learning, and that senescent changes during aging result in dedifferentiation and reduced cortical specialization of neural cell assemblies.
pdf:docinfo:creator: Viktor Müller
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meta:creation-date: 2019-06-08T13:53:35Z
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Creation-Date: 2019-06-08T13:53:35Z
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dc:description: Behavioral and physiological evidence suggests that developmental changes lead to enhanced cortical differentiation and integration through maturation and learning, and that senescent changes during aging result in dedifferentiation and reduced cortical specialization of neural cell assemblies.
Keywords: lifespan changes, EEG, functional connectivity, directional coupling, network topology dynamics, graph-theoretical approach, resting state, auditory oddball performance
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dc:creator: Viktor Müller
description: Behavioral and physiological evidence suggests that developmental changes lead to enhanced cortical differentiation and integration through maturation and learning, and that senescent changes during aging result in dedifferentiation and reduced cortical specialization of neural cell assemblies.
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Last-Modified: 2019-06-11T13:26:43Z
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title: Lifespan Changes in Network Structure and Network Topology Dynamics During Rest and Auditory Oddball Performance
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creator: Viktor Müller
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dc:subject: lifespan changes, EEG, functional connectivity, directional coupling, network topology dynamics, graph-theoretical approach, resting state, auditory oddball performance
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