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Functional Connectivity, Human Brain Evolution, Human Connectome, Neuro Semiotics Social Interaction, Video Sync Lab, Human Interaction - EEG ERP EEG-fMRI NIRS fNIRS

Functional Connectivity, Human Brain Evolution, Human Connectome, Neuro Semiotics

Social Interaction, Video Sync Lab, Human Interaction - EEG ERP EEG-fMRI NIRS fNIRS

Functional Connectivity Human Connectome
Functional Connectivity Human Connectome

EEG (Electroencephalography), ERP (Event-Related Potentials), EEG-fMRI (Simultaneous EEG and functional Magnetic Resonance Imaging), NIRS (Near-Infrared Spectroscopy), and fNIRS (functional Near-Infrared Spectroscopy) are all neuroimaging techniques that can be used in various research areas. Here's how they can be applied to the topics you mentioned:

Functional Connectivity: EEG and EEG-fMRI can be used to investigate functional connectivity, which refers to the synchronization or correlation of neural activity between different brain regions. These techniques can measure the coherence or connectivity patterns in brain oscillations to identify networks of brain regions that are functionally connected.

Human Brain Evolution: EEG and ERP studies can be conducted to examine differences in brain activity and cognitive processes between different species or populations, providing insights into the evolution of the human brain. Comparisons between humans and other primates or ancient hominids can help identify specific brain changes that have occurred over time.

Human Connectome: The human connectome refers to the complete map of structural and functional brain connections. EEG and fNIRS can contribute to mapping the functional connectome by measuring the functional connectivity patterns between brain regions. These techniques provide information about how different brain areas communicate and work together.

Neurosemiotics: Neurosemiotics explores the relationship between neural processes and the interpretation of signs and symbols. EEG and ERP techniques can be used to study the brain's response to various stimuli, such as visual or auditory symbols, to understand how the brain processes and interprets semiotic information.

Social Interaction and Human Interaction: EEG, ERP, NIRS, and fNIRS can be utilized to study social interactions and human communication. These techniques can assess brain activity during face-to-face interactions, speech processing, emotional responses, and social cognition. They can help identify neural correlates of social behavior and communication processes.

Video Sync Lab: EEG and ERP can be used in video sync labs to investigate brain responses to visual stimuli presented on screens or synchronized with other sensory modalities. This allows researchers to examine how the brain processes visual information, including perception, attention, and memory, in response to video stimuli.

Overall, EEG, ERP, EEG-fMRI, NIRS, and fNIRS are valuable tools in neuroscience research that can provide insights into brain function, connectivity, and the neural processes underlying various cognitive and social phenomena.



Functional Connectivity | Brain TED conference

Functional Connectivity | Human Brain Evolution 

Functional Connectivity | Human Connectome

Sync Lab | Video Sync Lab

Social Interaction | Social Interaction 

Social Interaction | Interact

Social Interaction | Formação Social da América Latina

História da Arte e Estética | Neuro Semiotics

 






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00:00:00 - 01:29:00

Brain TED conferences


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01:29:00 - 02:28:00

Human Brain Evolution


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02:28:00 - 08:19:00

Human Connectome


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08:19:00 - 10:20:00

Video Sync Lab


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10:20:00 - 11:35:00

Social Interaction


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11:35:00 - 13:50:00

Interact


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13:50:00 - 18:36:00

Formação Social da América Latina


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18:36:00 - 23:59:00

NeuroSemiotics



Jackson Cionek










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