cog.net
cyberiad | 2 years ago
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I found this paper interesting. (arXiv - free pdf)
http://arxiv.org/abs/1002.0697
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Complex networks: new trends for the analysis of brain connectivity
Abstract: Today, the human brain can be studied as a whole. Electroencephalography, magnetoencephalography, or functional magnetic resonance imaging techniques provide functional connectivity patterns between different brain areas, and during different pathological and cognitive neuro-dynamical states. In this Tutorial we review novel complex networks approaches to unveil how brain networks can efficiently manage local processing and global integration for the transfer of information, while being at the same time capable of adapting to satisfy changing neural demands.
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http://arxiv.org/abs/1002.0697
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Complex networks: new trends for the analysis of brain connectivity
Abstract: Today, the human brain can be studied as a whole. Electroencephalography, magnetoencephalography, or functional magnetic resonance imaging techniques provide functional connectivity patterns between different brain areas, and during different pathological and cognitive neuro-dynamical states. In this Tutorial we review novel complex networks approaches to unveil how brain networks can efficiently manage local processing and global integration for the transfer of information, while being at the same time capable of adapting to satisfy changing neural demands.
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cyberiad | 2 years ago
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waay over my head, but did catch this sentence
"Nevertheless, evidence suggests that the emergence of a unified neural process is mediated by the continuous formation and de- struction of functional links over multiple time scales"
a sea of lipids makes sense here
"Nevertheless, evidence suggests that the emergence of a unified neural process is mediated by the continuous formation and de- struction of functional links over multiple time scales"
a sea of lipids makes sense here
medicalstudent | 2 years ago
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